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Deck 7: Techniques of Integration

ملء الشاشة (f)
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سؤال
Integrate <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> dx.

A) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + C
B) -x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + C
C) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + C
D) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + C
E) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px> + 2 <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 <div style=padding-top: 35px>
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سؤال
Integrate <strong>Integrate dx.</strong> A) x cos x - sin x + C B) x sin x + cos x + C C) -x cos x + sin x + C D) x sin x - cos x + C E) -x sin x + cos x + C <div style=padding-top: 35px> dx.

A) x cos x - sin x + C
B) x sin x + cos x + C
C) -x cos x + sin x + C
D) x sin x - cos x + C
E) -x sin x + cos x + C
سؤال
Find <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - <div style=padding-top: 35px> dx.

A) 1 - <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - <div style=padding-top: 35px>
B) -1
C) <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - <div style=padding-top: 35px> - 1
D) <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - <div style=padding-top: 35px>
E) -1 - <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - <div style=padding-top: 35px>
سؤال
Integrate <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> dx.

A) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> ln x + <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> + C
B) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> ln x - <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> + C
C) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> ln x + <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> x + C
D) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> ln x - <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> x + C
E) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> ln x - <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <div style=padding-top: 35px> + C
سؤال
Integrate <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px> dx.

A) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px>
B) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px>
C) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px>
D) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px>
E) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) <div style=padding-top: 35px>
سؤال
Integrate <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> ln(5x) dx.

A) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> ln(5x) - <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> + C
B) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> ln(5x) + <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> + C
C) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> ln(5x) + <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> + C
D) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> ln(5x) - <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> + C
E) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> ln(5x) - <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> .

A) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) + C
B) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) + <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> + C
C) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) - <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> + C
D) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) + ln(1 - <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) + C
E) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) + 2x <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <div style=padding-top: 35px> ) + C
سؤال
Integrate <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> .

A) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> - 2x - 1) + C
B) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> + 2x - 1) + C
C) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> - 2x + 1) + C
D) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> + 2x + 1) + C
E) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <div style=padding-top: 35px> - 2x + 1) + C
سؤال
Integrate <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> dx.

A) - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + C
B) <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + C
C) - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + C
D) - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + C
E) <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px> t dt.

A) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px> + <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px>
B) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px> - <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px>
C) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px> - <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px>
D) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px> + <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px>
E) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px> + <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + <div style=padding-top: 35px>
سؤال
Integrate <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px>

A) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> sin 2x + C
B) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> sin 2x + C
C) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> sin 2x + C
D) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> sin 2x + C
E) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C <div style=padding-top: 35px> cos 2x + C
سؤال
Evaluate <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> .

A) x <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> (x) - <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> ln(1 + <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> ) + C
B) <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> + C
C) x <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> (x) - <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> ln(1 + <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> ) + C
D) arc <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> + C
E) ln <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C <div style=padding-top: 35px> sin 4x dx.

A) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C <div style=padding-top: 35px> (3 sin 4x - 4 cos 4x) + C
B) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C <div style=padding-top: 35px> (4 sin 4x - 3 cos 4x) + C
C) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C <div style=padding-top: 35px> (3 sin 4x + 4 cos 4x) + C
D) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C <div style=padding-top: 35px> (4 sin 4x + 3 cos 4x) + C
E) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C <div style=padding-top: 35px> (3 sin 4x - 4 cos 4x) + C
سؤال
Integrate <strong>Integrate dx.</strong> A) 6 - 2e B) 4e - 6 C) e + 3 D) 4e - 3 E) 2e - 1 <div style=padding-top: 35px> dx.

A) 6 - 2e
B) 4e - 6
C) e + 3
D) 4e - 3
E) 2e - 1
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px>
B) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px>
C) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px>
D) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px>
E) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) <div style=padding-top: 35px>
سؤال
Integrate <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px> dx.

A) 6 - 2e
B) <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px>
C) <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px> - <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px>
D) <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px> + <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px>
E) 2 <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 <div style=padding-top: 35px> + 6
سؤال
Integrate <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px>

A) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> ln x - <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> + C
B) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> ln x + <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> + C
C) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> ln x - <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> + C
D) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> ln x + <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> + C
E) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> ln x - <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) 8 + 4 B) 4 C) 8 -5 D) -4 E) 3 <div style=padding-top: 35px> dx.

A) 8 <strong>Evaluate dx.</strong> A) 8 + 4 B) 4 C) 8 -5 D) -4 E) 3 <div style=padding-top: 35px> + 4
B) 4
C) 8 -5
D) -4
E) 3
سؤال
Find a reduction formula for <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> = <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> and use it to evaluate I3 = <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> dx.

A) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - n <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - 3x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + 6x ln x - 6x + C
B) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + n <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + 3x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + 6x ln x + 6x + C
C) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + x ln x - x + C
D) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> + x ln x - x + C
E) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - n <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - 3x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C <div style=padding-top: 35px> - 6x ln x + 6x + C
سؤال
Find a reduction formula for In = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> and use it to evaluate I4 = . <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> dx

A) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> - <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + C
B) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + C
C) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> - n <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + C
D) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + n <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + C
E) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <div style=padding-top: 35px> + C
سؤال
Let In = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> dx. Find a reduction formula for In in terms of In-2 valid for n \le 3and use it to evaluate I5 = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> dx.

A) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> )
B) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> - <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> - <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> )
C) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> )
D) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> - <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> )
E) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <div style=padding-top: 35px> )
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + 3x - 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + C
B) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + 3x + 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + C
C) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> - 3x + 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + C
D) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + 3x + 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + C
E) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + 3x + 3ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> dx.

A) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> - ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + C
B) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + C
C) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + C
D) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> - ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + C
E) 2 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> - ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C <div style=padding-top: 35px> dx.

A) 2x + ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C <div style=padding-top: 35px> + C
B) 2x - ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C <div style=padding-top: 35px> + C
C) x - ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C <div style=padding-top: 35px> + C
D) x + ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C <div style=padding-top: 35px> + C
E) x - ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + C
B) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + C
C) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + C
D) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + C
E) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px> dx.

A) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px> - 1) + <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px>
B) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px> + 1) + <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px>
C) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px> - 1) - <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px>
D) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px> + 1) - <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px>
E) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px> ) - <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - <div style=padding-top: 35px>
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> + C
B) <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> + C
C) <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> + C
D) 7 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> - 3 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> + C
E) 7 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> - 3 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + 2x - 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + C
B) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + 2x + 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + C
C) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + 2x - 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + C
D) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + 2x + 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + C
E) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + 2x + 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px>
B) <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px>
C) - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px>
D) - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px> - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px>
E) <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px> + <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + <div style=padding-top: 35px>
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> - x - <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> + 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> (x) + C
B) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> - x + <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> + 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> (x) + C
C) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> - x + <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> - 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> (x) + C
D) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> + x + <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> + 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> (x) + C
E) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> - x - <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> - 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C <div style=padding-top: 35px> (x) + C
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) B) C) D) E) <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral dx.</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Evaluate the integral dx.</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Evaluate the integral dx.</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Evaluate the integral dx.</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Evaluate the integral dx.</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
<strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px>

A) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> (x) + ln( <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> + 1) - x + C
B) ( <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> + 1) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> (x) - x + C
C) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> + C
D) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> + C
E) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> (x) - ln( <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <div style=padding-top: 35px> + 1) + x + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> dx.

A) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + C
B) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + C
C) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + C
D) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + C
E) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> -3ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate the integral <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> .

A) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> + <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> (2x) + C
B) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> - <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> (2x) + C
C) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> - <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> (2x) + C
D) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> + <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> (2x) + C
E) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> + <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <div style=padding-top: 35px> (2x) + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> dx.

A) 3x - ln( <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + 4) +12 <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + C
B) - <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + C
C) <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + C
D) 3x - ln( <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + 4) + C
E) - <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <div style=padding-top: 35px> + C
سؤال
The correct form of the partial fraction decomposition for the function <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> is given by

A) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px>
B) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px>
C) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px>
D) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px>
E) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px> + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + <div style=padding-top: 35px>
سؤال
Evaluate the integral <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> .

A) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + C
B) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> - <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + C
C) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> - <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + C
D) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + C
E) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> .

A) <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + C
B) - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + C
C) - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + C
D) <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + C
E) <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> .

A) ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + C
B) - ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + C
C) - ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> - <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + C
D) ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + C
E) ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) 144 B) 121 C) 9 \pi D) 124 E) -144 <div style=padding-top: 35px> dx.

A) 144
B) 121
C) 9 π\pi
D) 124
E) -144
سؤال
Evaluate <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px> dx.

A) - <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px>
B) <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px>
C) - <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px>
D) <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px> + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px>
E) - <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px> - ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln <div style=padding-top: 35px>
سؤال
Evaluate <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
B) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
C) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
D) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
E) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> dx.

A) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + C
B) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> - a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + C
C) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> - a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + C
D) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + C
E) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> - ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) 16 \pi B) 8 \pi C) D) 16 \pi - 8 E) 12 \pi <div style=padding-top: 35px> dx.

A) 16 π\pi
B) 8 π\pi
C) <strong>Evaluate dx.</strong> A) 16 \pi B) 8 \pi C) D) 16 \pi - 8 E) 12 \pi <div style=padding-top: 35px>
D) 16 π\pi - 8
E) 12 π\pi
سؤال
Evaluate <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> dt
Hint: First use the substitution u = <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> .

A) ln <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> + C
B) <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> + C
C) <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> ( <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> + 2) + C
D) <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> + C
E) 2 <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C <div style=padding-top: 35px> dx.

A) -2x <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C <div style=padding-top: 35px> + C
B) <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C <div style=padding-top: 35px> + C
C) <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C <div style=padding-top: 35px> + C
D) <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C <div style=padding-top: 35px> + C
E) - <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px>

A) <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> + C
B) - <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> + C
C) <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> + C
D) 3 <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> + C
E) 3 <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> dx.

A) - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + C
B) - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + C
C) <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + C
D) - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + C
E) <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <div style=padding-top: 35px> + C
سؤال
Evaluate <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px>

A) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
B) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
C) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
D) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
E) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <div style=padding-top: 35px> + C
سؤال
Let J = <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px> dx. The substitution x = <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px> tan( θ\theta transforms the integral J into:

A) <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px> <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px>
B) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px>
C) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px>
D) <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px> <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px>
E) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <div style=padding-top: 35px>
سؤال
Use the half-angle substitution x = tan (θ/2) to evaluate Use the half-angle substitution x = tan (θ/2) to evaluate dθ.<div style=padding-top: 35px> dθ.
سؤال
Evaluate <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px> dx.

A) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px> - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px>
B) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px> - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px>
C) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px> - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px>
D) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px> - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px>
E) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px> + <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + <div style=padding-top: 35px>
سؤال
What technique would you use to evaluate the integral I = What technique would you use to evaluate the integral I = Instead, try to evaluate it using Maple or another computer algebra system.<div style=padding-top: 35px> Instead, try to evaluate it using Maple or another computer algebra system.
سؤال
What technique would you use to evaluate the integral I = What technique would you use to evaluate the integral I = Instead, try to evaluate it using Maple or another computer algebra system.<div style=padding-top: 35px> Instead, try to evaluate it using Maple or another computer algebra system.
سؤال
Let F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> Use Maple or another computer algebra program to compute F(x) and an approximate value for F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ) correct to 5 decimal places.

A) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ) \approx 0.89480
B) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ) \approx 0.89483
C) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ) \approx 0.89486
D) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ) \approx 0.89489
E) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <div style=padding-top: 35px> ) \approx 0.894878
سؤال
Let G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> G(x).

A) G(1) \approx 0.85562, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px>
B) G(1) \approx 0.85558, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px>
C) G(1) \approx 0.74682, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px>
D) G(1) \approx 0.74685, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px>
E) G(1) \approx 0.87649, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px> G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <div style=padding-top: 35px>
سؤال
Evaluate the integral, <strong>Evaluate the integral, dx.</strong> A) B) e C) ln 3 D) E) diverges to \infty <div style=padding-top: 35px> dx.

A) <strong>Evaluate the integral, dx.</strong> A) B) e C) ln 3 D) E) diverges to \infty <div style=padding-top: 35px>
B) e
C) ln 3
D) <strong>Evaluate the integral, dx.</strong> A) B) e C) ln 3 D) E) diverges to \infty <div style=padding-top: 35px>
E) diverges to \infty
سؤال
Evaluate the integral <strong>Evaluate the integral </strong> A) \pi /2 B) \pi C) 1/2 D) 1 E) divergent <div style=padding-top: 35px>

A) π\pi /2
B) π\pi
C) 1/2
D) 1
E) divergent
سؤال
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) 2 B) 1 C) \pi D) e E) diverges to \infty <div style=padding-top: 35px> dx.

A) 2
B) 1
C) π\pi
D) e
E) diverges to \infty
سؤال
Evaluate the improper integral <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to <div style=padding-top: 35px> dx or show it to diverges (to \infty or \infty ).

A) converges to 1 - <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to <div style=padding-top: 35px>
B) diverges to \infty
C) converged to <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to <div style=padding-top: 35px> - 1
D) diverges to - \infty
E) converges to <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to <div style=padding-top: 35px>
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) \pi B) 2 \pi C) D) E) divergent <div style=padding-top: 35px> .

A) π\pi
B) 2 π\pi
C) <strong>Evaluate, if convergent, .</strong> A) \pi B) 2 \pi C) D) E) divergent <div style=padding-top: 35px>
D) <strong>Evaluate, if convergent, .</strong> A) \pi B) 2 \pi C) D) E) divergent <div style=padding-top: 35px>
E) divergent
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent <div style=padding-top: 35px> cos x dx.

A) <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent <div style=padding-top: 35px>
B) <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent <div style=padding-top: 35px>
C) - <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent <div style=padding-top: 35px>
D) 0
E) divergent
سؤال
Evaluate the integral <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px> .

A) 3 <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px>
B) <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px>
C) <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px>
D) <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px> <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <div style=padding-top: 35px>
E) diverges to \infty
سؤال
Evaluate the integral <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty <div style=padding-top: 35px> .

A) 2 <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty <div style=padding-top: 35px>
B) <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty <div style=padding-top: 35px>
C) 3 <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty <div style=padding-top: 35px>
D) 4 <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty <div style=padding-top: 35px>
E) diverges to \infty
سؤال
Evaluate <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty <div style=padding-top: 35px>

A) - <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty <div style=padding-top: 35px>
B) - <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty <div style=padding-top: 35px>
C) <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty <div style=padding-top: 35px>
D) - <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty <div style=padding-top: 35px>
E) diverges to - \infty
سؤال
Evaluate the improper integral <strong>Evaluate the improper integral dx or show it diverges (to \infty or - \infty ).</strong> A) diverges to \infty B) converges to - sin(3) C) converges to 3 - sin(3) D) diverges to - \infty E) converges to sin(3) - 3cos(3) <div style=padding-top: 35px> <strong>Evaluate the improper integral dx or show it diverges (to \infty or - \infty ).</strong> A) diverges to \infty B) converges to - sin(3) C) converges to 3 - sin(3) D) diverges to - \infty E) converges to sin(3) - 3cos(3) <div style=padding-top: 35px> dx or show it diverges (to \infty or - \infty ).

A) diverges to \infty
B) converges to - sin(3)
C) converges to 3 - sin(3)
D) diverges to - \infty
E) converges to sin(3) - 3cos(3)
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, dx.</strong> A) 2 \pi B) \pi C) 1 D) 0 E) divergent <div style=padding-top: 35px> dx.

A) 2 π\pi
B) π\pi
C) 1
D) 0
E) divergent
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) \pi B) 1 C) 0 D) E) diverges to \infty <div style=padding-top: 35px> .

A) π\pi
B) 1
C) 0
D) <strong>Evaluate, if convergent, .</strong> A) \pi B) 1 C) 0 D) E) diverges to \infty <div style=padding-top: 35px>
E) diverges to \infty
سؤال
Which of the following is not an improper integral?

A) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx <div style=padding-top: 35px> dx
B) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx <div style=padding-top: 35px> dx
C) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx <div style=padding-top: 35px> dx
D) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx <div style=padding-top: 35px> dx
E) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx <div style=padding-top: 35px> dx
سؤال
converges to - 2.<div style=padding-top: 35px> converges to - 2.
سؤال
Evaluate, if convergent, . <strong>Evaluate, if convergent, . dx</strong> A) -2 B) -1 C) 2 D) 1 E) diverges to \infty <div style=padding-top: 35px> <strong>Evaluate, if convergent, . dx</strong> A) -2 B) -1 C) 2 D) 1 E) diverges to \infty <div style=padding-top: 35px> dx

A) -2
B) -1
C) 2
D) 1
E) diverges to \infty
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty <div style=padding-top: 35px> .

A) <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty <div style=padding-top: 35px>
B) - <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty <div style=padding-top: 35px>
C) <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty <div style=padding-top: 35px>
D) diverges to \infty
E) diverges to - \infty
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) 2 B) 2 \pi C) 1 D) \pi E) diverges to \infty <div style=padding-top: 35px> .

A) 2
B) 2 π\pi

C) 1
D) π\pi

E) diverges to \infty
سؤال
Find the area under the curve y = <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty <div style=padding-top: 35px> and above the x-axis between x = -1 and x = 1.

A) 4 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty <div style=padding-top: 35px> square units
B) 2 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty <div style=padding-top: 35px> square units
C) 2 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty <div style=padding-top: 35px> square units
D) 4 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty <div style=padding-top: 35px> square units
E) diverges to \infty
سؤال
Find the area between the curves y = <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty <div style=padding-top: 35px> and y = <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty <div style=padding-top: 35px> to the right of x = 0 if the area is finite.

A) 3 square units
B) 3 <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty <div style=padding-top: 35px> square units
C) 2 <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty <div style=padding-top: 35px> square units
D) 2 square units
E) diverges to \infty
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, dx.</strong> A) 2 B) 2 \pi C) 5 \pi D) 5 E) diverges to \infty <div style=padding-top: 35px> dx.

A) 2
B) 2 π\pi
C) 5 π\pi
D) 5
E) diverges to \infty
سؤال
Find, if finite, the area of the region lying between the graph of the function <strong>Find, if finite, the area of the region lying between the graph of the function (x) and the line to the right of x = 0.</strong> A) square units B) \pi square units C) \pi + 1 square units D) 2 \pi square units E) diverges to \infty <div style=padding-top: 35px> (x) and the line <strong>Find, if finite, the area of the region lying between the graph of the function (x) and the line to the right of x = 0.</strong> A) square units B) \pi square units C) \pi + 1 square units D) 2 \pi square units E) diverges to \infty <div style=padding-top: 35px> to the right of x = 0.

A) <strong>Find, if finite, the area of the region lying between the graph of the function (x) and the line to the right of x = 0.</strong> A) square units B) \pi square units C) \pi + 1 square units D) 2 \pi square units E) diverges to \infty <div style=padding-top: 35px> square units
B) π\pi square units
C) π\pi + 1 square units
D) 2 π\pi square units
E) diverges to \infty
سؤال
Evaluate, if convergent, <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty <div style=padding-top: 35px>

A) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty <div style=padding-top: 35px>
B) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty <div style=padding-top: 35px>
C) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty <div style=padding-top: 35px>
D) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty <div style=padding-top: 35px>
E) diverges to \infty
سؤال
Evaluate, if convergent, the improper integral <strong>Evaluate, if convergent, the improper integral </strong> A) B) 1 C) e D) E) diverges to \infty <div style=padding-top: 35px>

A) <strong>Evaluate, if convergent, the improper integral </strong> A) B) 1 C) e D) E) diverges to \infty <div style=padding-top: 35px>
B) 1
C) e
D) <strong>Evaluate, if convergent, the improper integral </strong> A) B) 1 C) e D) E) diverges to \infty <div style=padding-top: 35px>
E) diverges to \infty
سؤال
For what values of the constant k does the improper integral For what values of the constant k does the improper integral converge?<div style=padding-top: 35px> converge?
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Deck 7: Techniques of Integration
1
Integrate <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 dx.

A) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 - <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + C
B) -x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + C
C) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + C
D) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 - <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + C
E) x <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2 + 2 <strong>Integrate dx.</strong> A) x - + C B) -x + + C C) x + + C D) x - + C E) x + 2
x x - + C - x - + C + C
2
Integrate <strong>Integrate dx.</strong> A) x cos x - sin x + C B) x sin x + cos x + C C) -x cos x + sin x + C D) x sin x - cos x + C E) -x sin x + cos x + C dx.

A) x cos x - sin x + C
B) x sin x + cos x + C
C) -x cos x + sin x + C
D) x sin x - cos x + C
E) -x sin x + cos x + C
x sin x + cos x + C
3
Find <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - dx.

A) 1 - <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 -
B) -1
C) <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 - - 1
D) <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 -
E) -1 - <strong>Find dx.</strong> A) 1 - B) -1 C) - 1 D) E) -1 -
1 - 1 -
4
Integrate <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C dx.

A) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C ln x + <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C + C
B) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C ln x - <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C + C
C) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C ln x + <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C x + C
D) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C ln x - <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C x + C
E) <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C ln x - <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C <strong>Integrate dx.</strong> A) ln x + + C B) ln x - + C C) ln x + x + C D) ln x - x + C E) ln x - + C + C
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5
Integrate <strong>Integrate dx.</strong> A) + B) - C) - D) + E) dx.

A) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) + <strong>Integrate dx.</strong> A) + B) - C) - D) + E)
B) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) - <strong>Integrate dx.</strong> A) + B) - C) - D) + E)
C) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) - <strong>Integrate dx.</strong> A) + B) - C) - D) + E)
D) <strong>Integrate dx.</strong> A) + B) - C) - D) + E) + <strong>Integrate dx.</strong> A) + B) - C) - D) + E)
E) <strong>Integrate dx.</strong> A) + B) - C) - D) + E)
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6
Integrate <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C ln(5x) dx.

A) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C ln(5x) - <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C + C
B) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C ln(5x) + <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C + C
C) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C ln(5x) + <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C + C
D) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C ln(5x) - <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C + C
E) <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C ln(5x) - <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C <strong>Integrate ln(5x) dx.</strong> A) ln(5x) - + C B) ln(5x) + + C C) ln(5x) + + C D) ln(5x) - + C E) ln(5x) - + C + C
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7
Evaluate <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C .

A) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) + C
B) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) + <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C + C
C) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) - <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C + C
D) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) + ln(1 - <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) + C
E) <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) + 2x <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ( <strong>Evaluate .</strong> A) ( ) + C B) ( ) + + C C) ( ) - + C D) ( ) + ln(1 - ) + C E) ( ) + 2x ( ) + C ) + C
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8
Integrate <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C .

A) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C - 2x - 1) + C
B) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C + 2x - 1) + C
C) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C - 2x + 1) + C
D) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C + 2x + 1) + C
E) <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C (2 <strong>Integrate .</strong> A) (2 - 2x - 1) + C B) (2 + 2x - 1) + C C) (2 - 2x + 1) + C D) (2 + 2x + 1) + C E) (2 - 2x + 1) + C - 2x + 1) + C
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9
Integrate <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C dx.

A) - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + C
B) <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + C
C) - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + C
D) - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + C
E) <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C - <strong>Integrate dx.</strong> A) - - + + C B) - - + C C) - + - + C D) - - - + C E) + - + C + C
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Evaluate the integral <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + t dt.

A) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + + <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) +
B) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + - <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) +
C) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + - <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) +
D) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + + <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) +
E) <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) + + <strong>Evaluate the integral t dt.</strong> A) + B) - C) - D) + E) +
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Integrate <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C

A) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C sin 2x + C
B) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C sin 2x + C
C) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C sin 2x + C
D) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C sin 2x + C
E) <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x - <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C x + <strong>Integrate </strong> A) x x - x + sin 2x + C B) x x + x + sin 2x + C C) x x - x - sin 2x + C D) x x + x - sin 2x + C E) x x - x + cos 2x + C cos 2x + C
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Evaluate <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C .

A) x <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C (x) - <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C ln(1 + <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C ) + C
B) <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C + C
C) x <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C (x) - <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C ln(1 + <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C ) + C
D) arc <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C + C
E) ln <strong>Evaluate .</strong> A) x (x) - ln(1 + ) + C B) + C C) x (x) - ln(1 + ) + C D) arc + C E) ln + C + C
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13
Evaluate the integral <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C sin 4x dx.

A) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C (3 sin 4x - 4 cos 4x) + C
B) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C (4 sin 4x - 3 cos 4x) + C
C) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C (3 sin 4x + 4 cos 4x) + C
D) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C (4 sin 4x + 3 cos 4x) + C
E) <strong>Evaluate the integral sin 4x dx.</strong> A) (3 sin 4x - 4 cos 4x) + C B) (4 sin 4x - 3 cos 4x) + C C) (3 sin 4x + 4 cos 4x) + C D) (4 sin 4x + 3 cos 4x) + C E) (3 sin 4x - 4 cos 4x) + C (3 sin 4x - 4 cos 4x) + C
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14
Integrate <strong>Integrate dx.</strong> A) 6 - 2e B) 4e - 6 C) e + 3 D) 4e - 3 E) 2e - 1 dx.

A) 6 - 2e
B) 4e - 6
C) e + 3
D) 4e - 3
E) 2e - 1
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15
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) dx.

A) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) - <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E)
B) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) + <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E)
C) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) + <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E)
D) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E) - <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E)
E) <strong>Evaluate the integral dx.</strong> A) - B) + C) + D) - E)
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Integrate <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 dx.

A) 6 - 2e
B) <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 - <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6
C) <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 - <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6
D) <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 + <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6
E) 2 <strong>Integrate dx.</strong> A) 6 - 2e B) - C) - D) + E) 2 + 6 + 6
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Integrate <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C

A) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C ln x - <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C + C
B) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C ln x + <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C + C
C) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C ln x - <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C + C
D) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C ln x + <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C + C
E) <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C ln x - <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C <strong>Integrate </strong> A) ln x - + C B) ln x + + C C) ln x - + C D) ln x + + C E) ln x - + C + C
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Evaluate <strong>Evaluate dx.</strong> A) 8 + 4 B) 4 C) 8 -5 D) -4 E) 3 dx.

A) 8 <strong>Evaluate dx.</strong> A) 8 + 4 B) 4 C) 8 -5 D) -4 E) 3 + 4
B) 4
C) 8 -5
D) -4
E) 3
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Find a reduction formula for <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C = <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C and use it to evaluate I3 = <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C dx.

A) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - n <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - 3x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + 6x ln x - 6x + C
B) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + n <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + 3x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + 6x ln x + 6x + C
C) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + x ln x - x + C
D) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C + x ln x - x + C
E) <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C = x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - n <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C , <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - 3x <strong>Find a reduction formula for = and use it to evaluate I<sub>3</sub> = dx.</strong> A) = x - n , - 3x + 6x ln x - 6x + C B) = x + n , + 3x + 6x ln x + 6x + C C) = x - , - x + x ln x - x + C D) = x + , - x + x ln x - x + C E) = x - n , - 3x - 6x ln x + 6x + C - 6x ln x + 6x + C
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Find a reduction formula for In = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C and use it to evaluate I4 = . <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C dx

A) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C - <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + C
B) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + C
C) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C - n <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + C
D) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + n <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + C
E) <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C , <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C = <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C <strong>Find a reduction formula for I<sub>n</sub> = and use it to evaluate I<sub>4 </sub> = . dx</strong> A) = - , = + C B) = + , = + C C) = - n , = + C D) = + n , = + C E) = + , = + C + C
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افتح القفل للوصول البطاقات البالغ عددها 118 في هذه المجموعة.
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Let In = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) dx. Find a reduction formula for In in terms of In-2 valid for n \le 3and use it to evaluate I5 = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) dx.

A) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) )
B) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) - <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) - <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) )
C) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) )
D) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) - <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) )
E) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) , <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) = <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) ln(1 + <strong>Let I<sub>n</sub> = dx. Find a reduction formula for I<sub>n</sub> in terms of I<sub>n-2</sub> valid for n \le 3and use it to evaluate I<sub>5</sub> = dx.</strong> A) = + , = + ln(1 + ) B) = - , = - ln(1 + ) C) = + , = + ln(1 + ) D) = + , = - ln(1 + ) E) = + , = + ln(1 + ) )
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افتح القفل للوصول البطاقات البالغ عددها 118 في هذه المجموعة.
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C dx.

A) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + 3x - 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + C
B) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + 3x + 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + C
C) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C - 3x + 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + C
D) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + 3x + 9ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + C
E) <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + 3x + 3ln <strong>Evaluate the integral dx.</strong> A) + 3x - 9ln + C B) + 3x + 9ln + C C) - 3x + 9ln + C D) + 3x + 9ln + C E) + 3x + 3ln + C + C
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افتح القفل للوصول البطاقات البالغ عددها 118 في هذه المجموعة.
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23
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C dx.

A) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C - ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + C
B) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + C
C) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + C
D) 4 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C - ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + C
E) 2 ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C - ln <strong>Evaluate the integral dx.</strong> A) 4 ln - ln + C B) 4 ln + ln + C C) 4 ln + ln + C D) 4 ln - ln + C E) 2 ln - ln + C + C
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افتح القفل للوصول البطاقات البالغ عددها 118 في هذه المجموعة.
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C dx.

A) 2x + ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C + C
B) 2x - ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C + C
C) x - ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C + C
D) x + ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C + C
E) x - ln <strong>Evaluate the integral dx.</strong> A) 2x + ln + C B) 2x - ln + C C) x - ln + C D) x + ln + C E) x - ln + C + C
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C dx.

A) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + C
B) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + C
C) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + C
D) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + C
E) <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C - <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C ln <strong>Evaluate the integral dx.</strong> A) + - ln + ln + C B) + + ln - ln + C C) + - ln - ln + C D) + + ln + ln + C E) + - ln + ln + C + C
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Evaluate <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - dx.

A) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - - 1) + <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) -
B) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - + 1) + <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) -
C) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - - 1) - <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) -
D) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - + 1) - <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) -
E) ln( <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) - ) - <strong>Evaluate dx.</strong> A) ln( - 1) + B) ln( + 1) + C) ln( - 1) - D) ln( + 1) - E) ln( ) -
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C dx.

A) <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C - <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C + C
B) <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C - <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C + C
C) <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C - <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C + C
D) 7 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C - 3 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C + C
E) 7 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C - 3 ln <strong>Evaluate the integral dx.</strong> A) ln - ln + C B) ln - ln + C C) ln - ln + C D) 7 ln - 3 ln + C E) 7 ln - 3 ln + C + C
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C dx.

A) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C - <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + 2x - 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + C
B) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C - <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + 2x + 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + C
C) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + 2x - 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + C
D) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + 2x + 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + C
E) <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + 2x + 2 ln <strong>Evaluate the integral dx.</strong> A) - + 2x - 2 ln + C B) - + 2x + 2 ln + C C) + + 2x - 2 ln + C D) + + 2x + 2 ln + C E) + + 2x + 2 ln + C + C
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + dx.

A) <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + + <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) +
B) <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) +
C) - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + + <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) +
D) - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + - <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) +
E) <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) + + <strong>Evaluate the integral dx.</strong> A) + B) - C) - + D) - - E) +
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C dx.

A) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C - x - <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C + 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C (x) + C
B) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C - x + <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C + 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C (x) + C
C) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C - x + <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C - 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C (x) + C
D) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C + x + <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C + 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C (x) + C
E) <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C - x - <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C - 3 <strong>Evaluate the integral dx.</strong> A) - x - + 3 (x) + C B) - x + + 3 (x) + C C) - x + - 3 (x) + C D) + x + + 3 (x) + C E) - x - - 3 (x) + C (x) + C
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Evaluate the integral <strong>Evaluate the integral dx.</strong> A) B) C) D) E) dx.

A) <strong>Evaluate the integral dx.</strong> A) B) C) D) E)
B) <strong>Evaluate the integral dx.</strong> A) B) C) D) E)
C) <strong>Evaluate the integral dx.</strong> A) B) C) D) E)
D) <strong>Evaluate the integral dx.</strong> A) B) C) D) E)
E) <strong>Evaluate the integral dx.</strong> A) B) C) D) E)
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<strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C

A) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C (x) + ln( <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C + 1) - x + C
B) ( <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C + 1) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C (x) - x + C
C) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C + C
D) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C + C
E) <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C (x) - ln( <strong> </strong> A) (x) + ln( + 1) - x + C B) ( + 1) (x) - x + C C) + C D) + C E) (x) - ln( + 1) + x + C + 1) + x + C
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Evaluate <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C dx.

A) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + C
B) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + C
C) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + C
D) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + C
E) ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C -3ln <strong>Evaluate dx.</strong> A) ln + ln + + C B) ln + ln + + C C) ln + + C D) ln + ln + + C E) ln + ln -3ln + C + C
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Evaluate the integral <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C .

A) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C + <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C (2x) + C
B) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C - <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C (2x) + C
C) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C - <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C (2x) + C
D) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C + <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C (2x) + C
E) <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C + <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C <strong>Evaluate the integral .</strong> A) + (2x) + C B) - (2x) + C C) - (2x) + C D) + (2x) + C E) + (2x) + C (2x) + C
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Evaluate <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C dx.

A) 3x - ln( <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + 4) +12 <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + C
B) - <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + C
C) <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + C
D) 3x - ln( <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + 4) + C
E) - <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C <strong>Evaluate dx.</strong> A) 3x - ln( + 4) +12 + C B) - + + C C) + C D) 3x - ln( + 4) + C E) - + + C + C
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The correct form of the partial fraction decomposition for the function <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + is given by

A) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + +
B) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + +
C) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + +
D) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + +
E) <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + + + <strong>The correct form of the partial fraction decomposition for the function is given by</strong> A) + B) + + C) + D) + E) + +
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Evaluate the integral <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C .

A) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + C
B) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C - <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + C
C) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C - <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + C
D) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + C
E) ln <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + <strong>Evaluate the integral .</strong> A) ln + + C B) ln - + C C) ln - + C D) ln + + C E) ln + + C + C
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Evaluate <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C .

A) <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + C
B) - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + C
C) - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + C
D) <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + C
E) <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C ln <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C - <strong>Evaluate .</strong> A) ln - - + C B) - ln - + + C C) - ln - - + C D) ln - + + C E) ln - - + C + C
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39
Evaluate <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C .

A) ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C - <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + C
B) - ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + C
C) - ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C - <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + C
D) ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + C
E) ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C ln <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + <strong>Evaluate .</strong> A) ln - ln + + C B) - ln + ln + + C C) - ln - ln + + C D) ln + ln + + C E) ln + ln + + C + C
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Evaluate <strong>Evaluate dx.</strong> A) 144 B) 121 C) 9 \pi D) 124 E) -144 dx.

A) 144
B) 121
C) 9 π\pi
D) 124
E) -144
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41
Evaluate <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln dx.

A) - <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln
B) <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln
C) - <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln
D) <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln + ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln
E) - <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln - ln <strong>Evaluate dx.</strong> A) - + ln B) + ln C) - + ln D) + ln E) - - ln
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42
Evaluate <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C dx.

A) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C + C
B) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C + C
C) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C + C
D) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C + C
E) <strong>Evaluate dx.</strong> A) + C B) + C C) + C D) + C E) + C + C
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43
Evaluate <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C dx.

A) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + C
B) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C - a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + C
C) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C - a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + C
D) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + a ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + C
E) <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C - ln <strong>Evaluate dx.</strong> A) + a ln + C B) - a ln + C C) - a ln + C D) + a ln + C E) - ln + C + C
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44
Evaluate <strong>Evaluate dx.</strong> A) 16 \pi B) 8 \pi C) D) 16 \pi - 8 E) 12 \pi dx.

A) 16 π\pi
B) 8 π\pi
C) <strong>Evaluate dx.</strong> A) 16 \pi B) 8 \pi C) D) 16 \pi - 8 E) 12 \pi
D) 16 π\pi - 8
E) 12 π\pi
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45
Evaluate <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C dt
Hint: First use the substitution u = <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C .

A) ln <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C + C
B) <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C + C
C) <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C ( <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C + 2) + C
D) <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C + C
E) 2 <strong>Evaluate dt Hint: First use the substitution u = .</strong> A) ln + C B) + C C) ( + 2) + C D) + C E) 2 + C + C
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46
Evaluate <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C dx.

A) -2x <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C + C
B) <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C + C
C) <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C + C
D) <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C + C
E) - <strong>Evaluate dx.</strong> A) -2x + C B) + C C) + C D) + C E) - + C + C
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47
Evaluate <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C

A) <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C + C
B) - <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C + C
C) <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C + C
D) 3 <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C + C
E) 3 <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C <strong>Evaluate </strong> A) + C B) - + C C) + C D) 3 + C E) 3 + C + C
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48
Evaluate <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C dx.

A) - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + C
B) - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + C
C) <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + C
D) - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C - <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + C
E) <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C <strong>Evaluate dx.</strong> A) - + + C B) - + + C C) - + C D) - - + C E) + + C + C
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49
Evaluate <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C

A) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C + C
B) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C + C
C) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C + C
D) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C + C
E) <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C <strong>Evaluate </strong> A) + C B) + C C) + C D) + C E) + C + C
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50
Let J = <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 dx. The substitution x = <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 tan( θ\theta transforms the integral J into:

A) <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3
B) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3
C) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3
D) <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3
E) 3 <strong>Let J = dx. The substitution x = tan( \theta transforms the integral J into:</strong> A) B) 3 C) 3 D) E) 3
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51
Use the half-angle substitution x = tan (θ/2) to evaluate Use the half-angle substitution x = tan (θ/2) to evaluate dθ. dθ.
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52
Evaluate <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + dx.

A) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) +
B) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) +
C) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) +
D) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + - <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) +
E) <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) + + <strong>Evaluate dx.</strong> A) - B) - C) - D) - E) +
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53
What technique would you use to evaluate the integral I = What technique would you use to evaluate the integral I = Instead, try to evaluate it using Maple or another computer algebra system. Instead, try to evaluate it using Maple or another computer algebra system.
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What technique would you use to evaluate the integral I = What technique would you use to evaluate the integral I = Instead, try to evaluate it using Maple or another computer algebra system. Instead, try to evaluate it using Maple or another computer algebra system.
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Let F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 Use Maple or another computer algebra program to compute F(x) and an approximate value for F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ) correct to 5 decimal places.

A) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ) \approx 0.89480
B) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ) \approx 0.89483
C) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ) \approx 0.89486
D) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ) \approx 0.89489
E) F(x) = <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 FresnelS <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ; F( <strong>Let F(x) = Use Maple or another computer algebra program to compute F(x) and an approximate value for F( ) correct to 5 decimal places.</strong> A) F(x) = FresnelS ; F( ) \approx 0.89480 B) F(x) = FresnelS ; F( ) \approx 0.89483 C) F(x) = FresnelS ; F( ) \approx 0.89486 D) F(x) = FresnelS ; F( ) \approx 0.89489 E) F(x) = FresnelS ; F( ) \approx 0.894878 ) \approx 0.894878
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Let G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = G(x).

A) G(1) \approx 0.85562, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) =
B) G(1) \approx 0.85558, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) =
C) G(1) \approx 0.74682, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) =
D) G(1) \approx 0.74685, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) =
E) G(1) \approx 0.87649, <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) = G(x) = <strong>Let G(x) = dt. Use Maple or another computer algebra system to calculate G(1) correct to 5 decimal places, and also to calculate G(x).</strong> A) G(1) \approx 0.85562, G(x) = B) G(1) \approx 0.85558, G(x) = C) G(1) \approx 0.74682, G(x) = D) G(1) \approx 0.74685, G(x) = E) G(1) \approx 0.87649, G(x) =
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57
Evaluate the integral, <strong>Evaluate the integral, dx.</strong> A) B) e C) ln 3 D) E) diverges to \infty dx.

A) <strong>Evaluate the integral, dx.</strong> A) B) e C) ln 3 D) E) diverges to \infty
B) e
C) ln 3
D) <strong>Evaluate the integral, dx.</strong> A) B) e C) ln 3 D) E) diverges to \infty
E) diverges to \infty
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58
Evaluate the integral <strong>Evaluate the integral </strong> A) \pi /2 B) \pi C) 1/2 D) 1 E) divergent

A) π\pi /2
B) π\pi
C) 1/2
D) 1
E) divergent
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59
Evaluate the integral <strong>Evaluate the integral dx.</strong> A) 2 B) 1 C) \pi D) e E) diverges to \infty dx.

A) 2
B) 1
C) π\pi
D) e
E) diverges to \infty
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60
Evaluate the improper integral <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to dx or show it to diverges (to \infty or \infty ).

A) converges to 1 - <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to
B) diverges to \infty
C) converged to <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to - 1
D) diverges to - \infty
E) converges to <strong>Evaluate the improper integral dx or show it to diverges (to \infty or \infty ).</strong> A) converges to 1 - B) diverges to \infty C) converged to - 1 D) diverges to - \infty E) converges to
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61
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) \pi B) 2 \pi C) D) E) divergent .

A) π\pi
B) 2 π\pi
C) <strong>Evaluate, if convergent, .</strong> A) \pi B) 2 \pi C) D) E) divergent
D) <strong>Evaluate, if convergent, .</strong> A) \pi B) 2 \pi C) D) E) divergent
E) divergent
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62
Evaluate, if convergent, <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent cos x dx.

A) <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent
B) <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent
C) - <strong>Evaluate, if convergent, cos x dx.</strong> A) B) C) - D) 0 E) divergent
D) 0
E) divergent
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63
Evaluate the integral <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty .

A) 3 <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty
B) <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty
C) <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty
D) <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty <strong>Evaluate the integral .</strong> A) 3 B) C) D) E) diverges to \infty
E) diverges to \infty
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64
Evaluate the integral <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty .

A) 2 <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty
B) <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty
C) 3 <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty
D) 4 <strong>Evaluate the integral .</strong> A) 2 B) C) 3 D) 4 E) diverges to \infty
E) diverges to \infty
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65
Evaluate <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty

A) - <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty
B) - <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty
C) <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty
D) - <strong>Evaluate </strong> A) - B) - C) D) - E) diverges to - \infty
E) diverges to - \infty
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66
Evaluate the improper integral <strong>Evaluate the improper integral dx or show it diverges (to \infty or - \infty ).</strong> A) diverges to \infty B) converges to - sin(3) C) converges to 3 - sin(3) D) diverges to - \infty E) converges to sin(3) - 3cos(3) <strong>Evaluate the improper integral dx or show it diverges (to \infty or - \infty ).</strong> A) diverges to \infty B) converges to - sin(3) C) converges to 3 - sin(3) D) diverges to - \infty E) converges to sin(3) - 3cos(3) dx or show it diverges (to \infty or - \infty ).

A) diverges to \infty
B) converges to - sin(3)
C) converges to 3 - sin(3)
D) diverges to - \infty
E) converges to sin(3) - 3cos(3)
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67
Evaluate, if convergent, <strong>Evaluate, if convergent, dx.</strong> A) 2 \pi B) \pi C) 1 D) 0 E) divergent dx.

A) 2 π\pi
B) π\pi
C) 1
D) 0
E) divergent
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68
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) \pi B) 1 C) 0 D) E) diverges to \infty .

A) π\pi
B) 1
C) 0
D) <strong>Evaluate, if convergent, .</strong> A) \pi B) 1 C) 0 D) E) diverges to \infty
E) diverges to \infty
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69
Which of the following is not an improper integral?

A) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx dx
B) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx dx
C) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx dx
D) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx dx
E) <strong>Which of the following is not an improper integral?</strong> A) dx B) dx C) dx D) dx E) dx dx
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70
converges to - 2. converges to - 2.
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71
Evaluate, if convergent, . <strong>Evaluate, if convergent, . dx</strong> A) -2 B) -1 C) 2 D) 1 E) diverges to \infty <strong>Evaluate, if convergent, . dx</strong> A) -2 B) -1 C) 2 D) 1 E) diverges to \infty dx

A) -2
B) -1
C) 2
D) 1
E) diverges to \infty
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72
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty .

A) <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty
B) - <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty
C) <strong>Evaluate, if convergent, .</strong> A) B) - C) D) diverges to \infty E) diverges to - \infty
D) diverges to \infty
E) diverges to - \infty
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73
Evaluate, if convergent, <strong>Evaluate, if convergent, .</strong> A) 2 B) 2 \pi C) 1 D) \pi E) diverges to \infty .

A) 2
B) 2 π\pi

C) 1
D) π\pi

E) diverges to \infty
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74
Find the area under the curve y = <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty and above the x-axis between x = -1 and x = 1.

A) 4 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty square units
B) 2 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty square units
C) 2 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty square units
D) 4 <strong>Find the area under the curve y = and above the x-axis between x = -1 and x = 1.</strong> A) 4 square units B) 2 square units C) 2 square units D) 4 square units E) diverges to \infty square units
E) diverges to \infty
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75
Find the area between the curves y = <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty and y = <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty to the right of x = 0 if the area is finite.

A) 3 square units
B) 3 <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty square units
C) 2 <strong>Find the area between the curves y = and y = to the right of x = 0 if the area is finite.</strong> A) 3 square units B) 3 square units C) 2 square units D) 2 square units E) diverges to \infty square units
D) 2 square units
E) diverges to \infty
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76
Evaluate, if convergent, <strong>Evaluate, if convergent, dx.</strong> A) 2 B) 2 \pi C) 5 \pi D) 5 E) diverges to \infty dx.

A) 2
B) 2 π\pi
C) 5 π\pi
D) 5
E) diverges to \infty
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77
Find, if finite, the area of the region lying between the graph of the function <strong>Find, if finite, the area of the region lying between the graph of the function (x) and the line to the right of x = 0.</strong> A) square units B) \pi square units C) \pi + 1 square units D) 2 \pi square units E) diverges to \infty (x) and the line <strong>Find, if finite, the area of the region lying between the graph of the function (x) and the line to the right of x = 0.</strong> A) square units B) \pi square units C) \pi + 1 square units D) 2 \pi square units E) diverges to \infty to the right of x = 0.

A) <strong>Find, if finite, the area of the region lying between the graph of the function (x) and the line to the right of x = 0.</strong> A) square units B) \pi square units C) \pi + 1 square units D) 2 \pi square units E) diverges to \infty square units
B) π\pi square units
C) π\pi + 1 square units
D) 2 π\pi square units
E) diverges to \infty
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78
Evaluate, if convergent, <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty

A) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty
B) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty
C) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty
D) <strong>Evaluate, if convergent, </strong> A) B) C) D) E) diverges to \infty
E) diverges to \infty
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79
Evaluate, if convergent, the improper integral <strong>Evaluate, if convergent, the improper integral </strong> A) B) 1 C) e D) E) diverges to \infty

A) <strong>Evaluate, if convergent, the improper integral </strong> A) B) 1 C) e D) E) diverges to \infty
B) 1
C) e
D) <strong>Evaluate, if convergent, the improper integral </strong> A) B) 1 C) e D) E) diverges to \infty
E) diverges to \infty
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80
For what values of the constant k does the improper integral For what values of the constant k does the improper integral converge? converge?
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