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Deck 2: Polynomial and Rational Functions

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Question
Solve the inequality and graph the solution on the real number line.
(x7)21( x - 7 ) ^ { 2 } \geq 1

A) (,6][8,)( - \infty , - 6 ] \cup [ - 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty ) <div style=padding-top: 35px>
B) (,6][8,)( - \infty , 6 ] \cup [ 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty ) <div style=padding-top: 35px>
C) (,8][6,)( - \infty , 8 ] \cup [ 6 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty ) <div style=padding-top: 35px>
D) (,8][6,)( - \infty , 8 ] \cup [ 6 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty ) <div style=padding-top: 35px>
E) (,6][8,)( - \infty , 6 ] \cup [ 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty ) <div style=padding-top: 35px>
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Question
Solve the inequality and graph the solution on the real number line.
x2+5x+13>0x ^ { 2 } + 5 x + 13 > 0

A) x13x \geq - 13 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers <div style=padding-top: 35px>
B) x13x \leq 13 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers <div style=padding-top: 35px>
C) x>5x > 5 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers <div style=padding-top: 35px>
D) x<5x < - 5 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers <div style=padding-top: 35px>
E)All real numbers <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers <div style=padding-top: 35px>
Question
Solve the inequality and write the solution set in interval notation.
5x320x2>05 x ^ { 3 } - 20 x ^ { 2 } > 0

A) (4,)( 4 , \infty )
B) (4,)( - 4 , - \infty )
C) (4,)( - 4 , \infty )
D) (4,)( 4 , - \infty )
E) (,5)( - \infty , 5 )
Question
Solve the inequality and write the solution set in interval notation.
x336x0x ^ { 3 } - 36 x \geq 0

A) [6,0][6,][ - 6,0 ] \cup [ 6 , \infty ]
B) [6,0][6,)[ - 6,0 ] \cup [ 6 , \infty )
C) [36,0][6,][ - 36,0 ] \cap [ 6 , \infty ]
D) [36,0][6,)[ - 36,0 ] \cup [ - 6 , \infty )
E) [6,0][6,)[ - 6,0 ] \cap [ 6 , \infty )
Question
Solve the inequality and graph the solution on the real number line.
x210x24>0x ^ { 2 } - 10 x - 24 > 0

A) (,2)(12,)( - \infty , - 2 ) \cup ( 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty ) <div style=padding-top: 35px>
B) (,2)(12,)( - \infty , - 2 ) \cap ( - 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty ) <div style=padding-top: 35px>
C) (,2)(,12,)( - \infty , - 2 ) \cup ( - \infty , - 12 , ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty ) <div style=padding-top: 35px>
D) (,2)[12,)( \infty , - 2 ) \cup [ 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty ) <div style=padding-top: 35px>
E) (,2](12,)( - \infty , 2 ] \cup ( 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line.
x210x+8<19x ^ { 2 } - 10 x + 8 < 19

A) (1,11)( - 1,11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 ) <div style=padding-top: 35px>
B) (1,11)( - 1 , - 11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 ) <div style=padding-top: 35px>
C) (1,11)( 1 , - 11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 ) <div style=padding-top: 35px>
D) (1,11)( - 1 , - 11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 ) <div style=padding-top: 35px>
E) (1,11)( - 1,11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line.
x2<4x ^ { 2 } < 4

A) [2,2][ - 2,2 ] <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 ) <div style=padding-top: 35px>
B) [2,2][ - 2,2 ] <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 ) <div style=padding-top: 35px>
C) (2,2)( - 2,2 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 ) <div style=padding-top: 35px>
D) (2,2)( - 2,2 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 ) <div style=padding-top: 35px>
E) (2,2)( - 2,2 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line.
x33x2x>3x ^ { 3 } - 3 x ^ { 2 } - x > - 3

A) (1,1)(3,)( - 1,1 ) \cup ( 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty ) <div style=padding-top: 35px>
B) (1,1)(3,)( - 1,1 ) \cup ( - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty ) <div style=padding-top: 35px>
C) (1,1)(3,)( - 1,1 ) \cup ( 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty ) <div style=padding-top: 35px>
D) (1,1)(3,)( - 1,1 ) \cup ( - 3 , - \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty ) <div style=padding-top: 35px>
E) (1,1)(3,)( - 1,1 ) \cup ( - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line
x3+3x29x270x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0

A) (,3]( - \infty , 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 ) <div style=padding-top: 35px>
B) (,3)( - \infty , 3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 ) <div style=padding-top: 35px>
C) (,3]( - \infty , 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 ) <div style=padding-top: 35px>
D) (,3]( - \infty , - 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 ) <div style=padding-top: 35px>
E) (,3)( - \infty , - 3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 ) <div style=padding-top: 35px>
Question
Determine whether the value of x=6x = - 6 is a solution of the inequality. x2x140x ^ { 2 } - x - 14 \geq 0
Question
Determine whether the value of x=1x = - 1 is a solution of the inequality. 3x2x2+4<1\frac { 3 x ^ { 2 } } { x ^ { 2 } + 4 } < 1
Question
Solve the inequality and graph the solution on the real number line.
x2+3x>4x ^ { 2 } + 3 x > 4

A) (,4)(1,)( - \infty , - 4 ) \cup ( 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty ) <div style=padding-top: 35px>
B) (,4)(1,)( - \infty , - 4 ) \cup ( - 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty ) <div style=padding-top: 35px>
C) (,4)(1,)( - \infty , - 4 ) \cup ( 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty ) <div style=padding-top: 35px>
D) (,4)(1,)( - \infty , - 4 ) \cup ( - 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty ) <div style=padding-top: 35px>
E) (,4)(1,)( - \infty , - 4 ) \cup ( 1 , - \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty ) <div style=padding-top: 35px>
Question
Determine whether the value of x=27x = \frac { 2 } { 7 } is a solution of the inequality. x22<0x ^ { 2 } - 2 < 0
Question
Solve the inequality and write the solution set in interval notation.
6x210x<06 x ^ { 2 } - 10 x < 0

A) (,0)][( - \infty , 0 ) ] \cup [ 53\frac { 5 } { 3 } ,), \infty )
B) \varnothing
C) (,0)( - \infty , 0 ) 53\frac { 5 } { 3 } ,), \infty )
D) (,0)[( \infty , 0 ) \cup [ - 53\frac { 5 } { 3 } ,), \infty )
E) (0,( 0 , 53\frac { 5 } { 3 } )
Question
Solve the inequality and graph the solution on the real number line.
x2+x<12x ^ { 2 } + x < 12

A) (4,3)( - 4,3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 ) <div style=padding-top: 35px>
B) (4,3)( - 4,3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 ) <div style=padding-top: 35px>
C) (4,3)( 4,3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 ) <div style=padding-top: 35px>
D) (4,3)( - 4 , - 3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 ) <div style=padding-top: 35px>
E) (4,3)( - 4 , - 3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 ) <div style=padding-top: 35px>
Question
Find the key numbers of the expression.
1x7+1\frac { 1 } { x - 7 } + 1

A)-6, 7
B)6, 7, 1
C)-6, -7
D)6, 7
E)6, -7
Question
Solve the inequality and graph the solution on the real number line.
9x26x+109 x ^ { 2 } - 6 x + 1 \leq 0

A) x=3x = 3 <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3 <div style=padding-top: 35px>
B) x=13x = \frac { 1 } { 3 } <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3 <div style=padding-top: 35px>
C) x=19x = \frac { 1 } { 9 } <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3 <div style=padding-top: 35px>
D) x=13x = - \frac { 1 } { 3 } <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3 <div style=padding-top: 35px>
E) x=3x = - 3 <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3 <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line.
x2>2x+48x ^ { 2 } > 2 x + 48

A) (,6)(8,)( - \infty , - 6 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
B) (,6)(8,)( - \infty , 6 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
C) (,6)(8,)( - \infty , - 6 ) \cup ( - 8 , - \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
D) (,6)(8,)( - \infty , - 6 ) \cup ( - 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
E) (,6)(8,)( - \infty , 6 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
Question
Find the key numbers of the expression.
16x349x216 x ^ { 3 } - 49 x ^ { 2 }

A)0, 1649\frac { 16 } { 49 }
B)0, 49
C)0, 51
D)0, -49
E)0, 4916\frac { 49 } { 16 }
Question
Solve the inequality and graph the solution on the real number line
x29x ^ { 2 } \leq 9

A) (3,3)( - 3,3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 ) <div style=padding-top: 35px>
B) [3,3][ - 3,3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 ) <div style=padding-top: 35px>
C) [3,3][ - 3,3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 ) <div style=padding-top: 35px>
D) [3,3][ 3 , - 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 ) <div style=padding-top: 35px>
E) (3,3)( - 3,3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line. 4x1x>0\frac { 4 x - 1 } { x } > 0

A) (,0)(14,)( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <div style=padding-top: 35px>
B) (,0)(14,)( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <div style=padding-top: 35px>
C) (,0)(14,14)( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <div style=padding-top: 35px>
D) (,0)(14,)( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <div style=padding-top: 35px>
E) (,0)(14,)( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <div style=padding-top: 35px>
Question
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality.
Equation: y=7xx2+6y = \frac { 7 x } { x ^ { 2 } + 6 }
Inequality: y1y \geq 1

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 <div style=padding-top: 35px> 1x61 \leq x \leq 6
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 <div style=padding-top: 35px> 1x<61 \leq x < 6
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 <div style=padding-top: 35px> 1<x<61 < x < 6
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 <div style=padding-top: 35px> 1<x61 < x \leq 6
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 <div style=padding-top: 35px> 1<x61 < x \leq 6
Question
Solve the inequality and graph the solution on the real number line.
x2+x12x0\frac { x ^ { 2 } + x - 12 } { x } \geq 0

A) [4,0)[3,)[ - 4,0 ) \cap [ 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty ) <div style=padding-top: 35px>
B) [4,0)[3,)[ 4,0 ) \cup [ 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty ) <div style=padding-top: 35px>
C) [4,0)[3,)[ 4,0 ) \cup [ - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty ) <div style=padding-top: 35px>
D) [4,0)[3,)[ - 4,0 ) \cap [ - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty ) <div style=padding-top: 35px>
E) [4,0)[3,)[ - 4,0 ) \cup [ 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty ) <div style=padding-top: 35px>
Question
Find the domain of x in the expression.
x27x+12\sqrt { x ^ { 2 } - 7 x + 12 }

A) (,3][4,)( - \infty , 3 ] \cup [ 4 , \infty )
B) (,3][4,)( - \infty , 3 ] \cap [ 4 , \infty )
C) (,3][4,)( \infty , - 3 ] \cup [ 4 , \infty )
D) (,3][4,)( \infty , 3 ] \cap [ 4 , \infty )
E) (,3][4,)( \infty , - 3 ] \cap [ 4 , \infty )
Question
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=6(x6)x+5y = \frac { 6 ( x - 6 ) } { x + 5 }
Inequality: y0y \leq 0

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 <div style=padding-top: 35px> 5x6- 5 \leq x \leq 6
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 <div style=padding-top: 35px> 5<x>6- 5 < x > 6
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 <div style=padding-top: 35px> 5<x6- 5 < x \leq 6
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 <div style=padding-top: 35px> 5<x6- 5 < x \leq 6
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 <div style=padding-top: 35px> 5<x<6- 5 < x < 6
Question
Find the domain of x in the expression.
94x2\sqrt { 9 - 4 x ^ { 2 } }

A) [32,32]\left[ \frac { 3 } { 2 } , \frac { 3 } { 2 } \right]
B) [32,32]\left[ - \frac { 3 } { 2 } , - \frac { 3 } { 2 } \right]
C) [32,32]\left[ - \frac { 3 } { 2 } , \frac { 3 } { 2 } \right] .
D) [23,23]\left[ - \frac { 2 } { 3 } , \frac { 2 } { 3 } \right]
E) [32,32]\left[ - \frac { 3 } { 2 } , - \frac { 3 } { 2 } \right] .
Question
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=5x2x2+25y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 }
Inequality: y2y \leq 2

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <div style=padding-top: 35px> <x533- \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 }
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <div style=padding-top: 35px> <x<- \infty < x < \infty
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <div style=padding-top: 35px> 533x533- \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 }
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <div style=padding-top: 35px> <x33- \infty < x \leq \frac { \sqrt { 3 } } { 3 }
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <div style=padding-top: 35px> <x53- \infty < x \leq 5 \sqrt { 3 }
Question
Find the domain of x in the expression.
25x2\sqrt { 25 - x ^ { 2 } }

A) (25,25)( - 25,25 )
B) [25,25][ - 25,25 ]
C) (5,5)( - 5,5 )
D) [5,25)[ - 5,25 )
E) [5,5][ - 5,5 ]
Question
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=x3x216x+16y = x ^ { 3 } - x ^ { 2 } - 16 x + 16
Inequality: y0y \leq 0

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <div style=padding-top: 35px> <x41x4\begin{array} { l } \infty < x \leq 4 \\1 \leq x \leq 4\end{array}
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <div style=padding-top: 35px> <x41x4\begin{array} { l } \infty < x \leq - 4 \\1 \leq x \leq 4\end{array}
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <div style=padding-top: 35px> <x41x4\begin{array} { l } - \infty < x \leq - 4 \\- 1 \leq x \leq - 4\end{array}
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <div style=padding-top: 35px> <x41x4\begin{array} { l } - \infty < x \leq - 4 \\1 \leq x \leq 4\end{array}
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <div style=padding-top: 35px> <x4- \infty < x \leq 4
Question
Find the domain of x in the expression.
xx22x24\sqrt { \frac { x } { x ^ { 2 } - 2 x - 24 } }

A) (4,0](6,)( - 4,0 ] \cap ( 6 , \infty )
B) (6,0](4,)( - 6,0 ] \cup ( 4 , \infty )
C) (4,0](6,)( - 4,0 ] \cup ( 6 , \infty )
D) (4,0](6,)( - 4,0 ] \cup ( - 6 , \infty )
E) (6,0](4,)( - 6,0 ] \cap ( - 4 , \infty )
Question
Find the domain of x in the expression.
x24\sqrt { x ^ { 2 } - 4 }

A) (,2][2,)( - \infty , 2 ] \cap [ 2 , \infty )
B) (,2][2,)( - \infty , - 2 ] \cup [ 2 , \infty )
C) (,2][2,)( - \infty , - 2 ] \cap [ 2 , \infty )
D) (,2][2,)( - \infty , 2 ] \cup [ 2 , \infty )
E) (,2)[2,)( - \infty , - 2 ) \cup [ 2 , \infty )
Question
Solve the inequality and graph the solution on the real number line.
1x1x+2\frac { 1 } { x } \geq \frac { 1 } { x + 2 }

A) (,2)(0,)( - \infty , - 2 ) \cap ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty ) <div style=padding-top: 35px>
B) (,2)(0,)( - \infty , - 2 ) \cup ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty ) <div style=padding-top: 35px>
C) (,2)(0,)( - \infty , 2 ) \cap ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty ) <div style=padding-top: 35px>
D) (,2)(0,)( \infty , 2 ) \cup ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty ) <div style=padding-top: 35px>
E) (,2)(0,)( - \infty , 2 ) \cup ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty ) <div style=padding-top: 35px>
Question
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=6xx5y = \frac { 6 x } { x - 5 }
Inequality: y8y \geq 8

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } <div style=padding-top: 35px> 5<x1015 < x \leq - \frac { 10 } { 1 }
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } <div style=padding-top: 35px> 5<x1015 < x \leq \frac { 10 } { 1 }
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } <div style=padding-top: 35px> 5<x5 < x
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } <div style=padding-top: 35px> 5<x1015 < x \leq \frac { 10 } { 1 }
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } <div style=padding-top: 35px> 6<x1016 < x \leq \frac { 10 } { 1 }
Question
Find the domain of x in the expression.
xx236\sqrt { \frac { x } { x ^ { 2 } - 36 } }

A) (36,0](36,)( - 36,0 ] \cup ( 36 , \infty )
B) (36,0](36,)( - 36,0 ] \cap ( 36 , \infty )
C) (36,0](6,)( - 36,0 ] \cap ( 6 , \infty )
D) (6,0](6,)( - 6,0 ] \cup ( 6 , \infty )
E) (36,0](6,)( - 36,0 ] \cap ( - 6 , \infty )
Question
Solve the inequality and graph the solution on the real number line.
x2+4xx2250\frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0

A) (5,4][0,5)( - 5 , - 4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 ) <div style=padding-top: 35px>
B) (5,4][0,5)( - 5,4 ] \cup [ 0 , - 5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 ) <div style=padding-top: 35px>
C) (5,4][0,5)( - 5,4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 ) <div style=padding-top: 35px>
D) (5,4][0,5)( 5 , - 4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 ) <div style=padding-top: 35px>
E) (5,4][0,5)( 5,4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line. 3x5x50\frac { 3 x - 5 } { x - 5 } \geq 0

A)( ,53- \infty , \frac { 5 } { 3 } ]  U (5,)\text { U } ( 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty ) <div style=padding-top: 35px>
B)( ,53- \infty , \frac { 5 } { 3 } ] (5,)\cup ( - 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty ) <div style=padding-top: 35px>
C)( ,53- \infty , - \frac { 5 } { 3 } ]  U (5,)\text { U } ( 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty ) <div style=padding-top: 35px>
D)( ,53- \infty , - \frac { 5 } { 3 } ] (5,)\cup ( - 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty ) <div style=padding-top: 35px>
E)( ,53- \infty , \frac { 5 } { 3 } ] (5,)\cap ( 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line.
x+9x+12<0\frac { x + 9 } { x + 1 } - 2 < 0

A) (,1)(7,)( - \infty , - 1 ) \cup ( 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty ) <div style=padding-top: 35px>
B) (,1)(7,)( - \infty , - 1 ) \cap ( - 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty ) <div style=padding-top: 35px>
C) (,1)(7,)( - \infty , 1 ) \cap ( 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty ) <div style=padding-top: 35px>
D) (,1)(7,)( - \infty , - 1 ) \cup ( - 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty ) <div style=padding-top: 35px>
E) (,1)(7,)( - \infty , - 1 ) \cap ( 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty ) <div style=padding-top: 35px>
Question
Solve the inequality and graph the solution on the real number line.
2x+4>1x2\frac { 2 } { x + 4 } > \frac { 1 } { x - 2 }

A) (4,2)(8,)( - 4,2 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
B) (4,2)(8,)( - 4,2 ) \cap ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
C) (4,2)(8,)( - 4 , - 2 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
D) (4,2)(8,)( - 4,2 ) \cap ( - 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
E) (4,2)(8,)( 4,2 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty ) <div style=padding-top: 35px>
Question
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality.
Equation: y=16x26x+1y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1
Inequality: y0y \leq 0

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } <div style=padding-top: 35px> x1427,1427x1+427x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } }
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } <div style=padding-top: 35px> 1427x1+4271 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } }
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } <div style=padding-top: 35px> x1427,1+427xx \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } <div style=padding-top: 35px> x1427,1+427xx \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } <div style=padding-top: 35px> 1427x1+427- 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } }
Question
Solve the inequality and write the solution set in interval notation.
x8(x2)0x ^ { 8 } ( x - 2 ) \leq 0

A) (,2]( - \infty , 2 ]
B) (,2)]( - \infty , - 2 ) ]
C) (,2]( - \infty , 2 ] .
D) (2,2]( - 2,2 ]
E) (,2)( - \infty , 2 )
Question
Solve the inequality 36xx3<036 x - x ^ { 3 } < 0 and write the solution set in interval notation.

A) (,6)(0,6)( - \infty , - 6 ) \cup ( 0,6 )
B) (6,6)( - 6,6 )
C) (,6)( - \infty , 6 )
D) (6,0)(6,)( - 6,0 ) \cup ( 6 , \infty )
E) (,)( - \infty , \infty )
Question
Find the interval(s) for b such that the equation has at least one real solution and write a conjecture about the interval(s) based on the values of the coefficients
4x2+bx+7=04 x ^ { 2 } + b x + 7 = 0 .

A) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cap [ 2 \sqrt { 28 } , \infty ) If a>0a > 0 and c<0c < 0 , b2acb \geq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
B) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cup [ - 2 \sqrt { 28 } , \infty ) If a<0a < 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \leq 2 \sqrt { a c }
C) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cup [ 2 \sqrt { 28 } , \infty ) If a>0a > 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
D) (,228][228,)( - \infty , 2 \sqrt { 28 } ] \cup [ 2 \sqrt { 28 } , \infty ) If a>0a > 0 and c>0c > 0 , b2acb \leq 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
E) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cap [ 2 \sqrt { 28 } , \infty ) If a<0a < 0 and c<0c < 0 , b2acb \leq 2 \sqrt { a c } or b2acb \leq 2 \sqrt { a c }
Question
Find the domain of x in the expression x33x4\sqrt [ 4 ] { x ^ { 3 } - 3 x } .

A) (,3],[3,)( - \infty , - \sqrt { 3 } ] , [ \sqrt { 3 } , \infty )
B) (,3],[3,)( - \infty , \sqrt { 3 } ] , [ \sqrt { 3 } , \infty )
C) [3,0],[3,)[ - \sqrt { 3 } , 0 ] , [ \sqrt { 3 } , \infty )
D) [3,3][ - \sqrt { 3 } , \sqrt { 3 } ]
E) (,3),(0,3)( - \infty , - \sqrt { 3 } ) , ( 0 , \sqrt { 3 } )
Question
Determine the equations of the vertical and horizontal asymptotes of the graph of the function f(x)=xx4f ( x ) = \frac { x } { x - 4 } .

A)horizontal: y = 0 ; vertical: x = 4
B)horizontal: y = -4 ; vertical: x = 0
C)horizontal: x = 0; vertical: y = 4
D)horizontal: x = 4 ; vertical: y = -1
E)horizontal: y = 1 ; vertical: x = 4
Question
A rectangular playing field with a perimeter of 98 meters is to have an area of at least 444 square meters.Within what bounds must the length of the rectangle lie?

A) 444mL13m444 m \leq L \leq 13 m
B) 37mL98m37 m \leq L \leq 98 m
C) 12mL37m12 m \leq L \leq 37 m
D) 39mL14m39 m \leq L \leq 14 m
E) 444m<L<13m444 m < L < 13 m
Question
Find the domain of the function f(x)=9x8f ( x ) = \frac { 9 } { x - 8 } .

A)Domain: all real numbers x except x = 8
B)Domain: all real numbers x except x = 9
C)Domain: all real numbers x except x = -9
D)Domain: all real numbers x
E)Domain: all real numbers x except x = -8
Question
Determine the intervals on which the following polynomial is entirely negative and those on which it is entirely positive. x22x+35- x ^ { 2 } - 2 x + 35

A)entirely negative: (,6)( - \infty , 6 ) ; entirely positive: (6,)( 6 , \infty )
B)entirely negative: (,7),(5,6)( - \infty , - 7 ) , ( 5,6 ) ; entirely positive: (7,6)( - 7,6 )
C)entirely negative: (,7),(5,)( - \infty , - 7 ) , ( 5 , \infty ) ; entirely positive: (7,5)( - 7,5 )
D)entirely negative: (7,6)( - 7,6 ) ; entirely positive: (0,)( 0 , \infty ) <strong>Determine the intervals on which the following polynomial is entirely negative and those on which it is entirely positive. - x ^ { 2 } - 2 x + 35 </strong> A)entirely negative: ( - \infty , 6 ) ; entirely positive: ( 6 , \infty ) B)entirely negative: ( - \infty , - 7 ) , ( 5,6 ) ; entirely positive: ( - 7,6 ) C)entirely negative: ( - \infty , - 7 ) , ( 5 , \infty ) ; entirely positive: ( - 7,5 ) D)entirely negative: ( - 7,6 ) ; entirely positive: ( 0 , \infty ) E)entirely negative: ( - \infty , 0 ) ; entirely positive: ( 0 , \infty ) <div style=padding-top: 35px>
E)entirely negative: (,0)( - \infty , 0 ) ; entirely positive: (0,)( 0 , \infty )
Question
Find the domain of x in the following expression. x46253\sqrt [ 3 ] { x ^ { 4 } - 625 }

A) [5,5][ - 5,5 ]
B) (,5)(5,)( - \infty , 5 ) \cup ( 5 , \infty )
C) [5,)[ 5 , \infty )
D) (5,)( 5 , \infty )
E)all real numbers
Question
the solution set of the inequality 72x2+7x+140\frac { 7 } { 2 } x ^ { 2 } + 7 x + 14 \geq 0 is the entire set of real numbers.

Question
Find the domain of the function f(x)=6x2x225f ( x ) = \frac { 6 x ^ { 2 } } { x ^ { 2 } - 25 } .

A)Domain: all real numbers x except x = 5
B)Domain: all real numbers x except x = ±25
C)Domain: all real numbers x except x = ±6
D)Domain: all real numbers x except x = -5
E)Domain: all real numbers x except x = ±5
Question
Use the position equation s=16t2+v0t+s0s = - 16 t ^ { 2 } + v _ { 0 } t + s _ { 0 } , where SS represents the height of an object (in feet), v0v_0 represents the initial velocity of the object (in feet per second), s0s_0 represents the initial height of the object (in feet), and t represents the time (in seconds). A projectile is fired straight upward from ground level (s0=0)\left( s _ { 0 } = 0 \right) with an initial velocity of 176 feet per second.At what instant will it be back at ground level?

A) t=11t = 11 Sec
B) t=16t = 16 Sec
C) t=13t = 13 Sec
D) t=12t = 12 Sec
E) t=10t = 10 Sec
Question
The graph of the function f(x)=3x2f ( x ) = \frac { 3 } { x - 2 } is shown below.Determine the vertical and horizontal asymptotes of its graph. <strong>The graph of the function f ( x ) = \frac { 3 } { x - 2 } is shown below.Determine the vertical and horizontal asymptotes of its graph. </strong> A)horizontal: y = 0; vertical: x = 2 B)horizontal: y = 0; vertical: x = -2 C)horizontal: y = -2; vertical: x = 0 D)horizontal: y = 2; vertical: x = 0 E)horizontal: y = -2; vertical: x = 2 <div style=padding-top: 35px>

A)horizontal: y = 0; vertical: x = 2
B)horizontal: y = 0; vertical: x = -2
C)horizontal: y = -2; vertical: x = 0
D)horizontal: y = 2; vertical: x = 0
E)horizontal: y = -2; vertical: x = 2
Question
Find the interval(s) for b such that the following equation has at least one real solution
x2+bx+6=0x ^ { 2 } + b x + 6 = 0 .

A) (,24][24,)( - \infty , - \sqrt { 24 } ] \cup [ \sqrt { 24 } , \infty )
B) (,24][24,)( - \infty , - \sqrt { 24 } ] \cap [ \sqrt { 24 } , \infty )
C) (,24](24,)( - \infty , \sqrt { 24 } ] \cup ( \sqrt { 24 } , \infty )
D) (,24)[24,)( - \infty , - \sqrt { 24 } ) \cup [ - \sqrt { 24 } , \infty )
E) (,24][24,)( - \infty , \sqrt { 24 } ] \cap [ \sqrt { 24 } , \infty )
Question
A rectangular parking lot with a perimeter of 442 feet is to have an area of at least 8050 square feet.Within what bounds must the length of the rectangle lie?

A) 8050ftL442ft8050 \mathrm { ft } \leq L \leq 442 \mathrm { ft }
B) 177ftL48ft177 \mathrm { ft } \leq L \leq 48 \mathrm { ft }
C) 49ftL178ft49 \mathrm { ft } \leq L \leq 178 \mathrm { ft }
D) 8050ftL47ft8050 \mathrm { ft } \leq L \leq 47 \mathrm { ft }
E) 46ftL175ft46 \mathrm { ft } \leq L \leq 175 \mathrm { ft }
Question
Solve: x22x15<0x ^ { 2 } - 2 x - 15 < 0

A) (,2)( - \infty , - 2 )
B) (3,)( - 3 , \infty )
C) (3,5)( - 3,5 )
D) (,5)( - \infty , 5 )
E) (5,)( 5 , \infty )
Question
Determine the equations of the vertical and horizontal asymptotes of the graph of the function f(x)=1x5f ( x ) = \frac { 1 } { x - 5 } .

A)horizontal: y = 1; vertical: x = 5
B)horizontal: x = 0; vertical: y = 5
C)horizontal: y = -5; vertical: x = 0
D)horizontal: x = 5; vertical: y = -1
E)horizontal: y = 0; vertical: x = 5
Question
Use the position equation s=16t2+v0t+s0s = - 16 t ^ { 2 } + v _ { 0 } t + s _ { 0 } , where s represents the height of an object (in feet), v0v _ { 0 } represents the initial velocity of the object (in feet per second), s0s_0 represents the initial height of the object (in feet), and t represents the time (in seconds). A projectile is fired straight upward from ground level (s0=0)\left( s _ { 0 } = 0 \right) with an initial velocity of 160 feet per second.At what instant will it be back at ground level?

A) t=8t = 8 Sec
B) t=10t = 10 Sec
C) t=12t = 12 Sec
D) t=11t = 11 Sec
E) t=9t = 9 Sec
Question
Find the domain of x in the expression 16x2\sqrt { 16 - x ^ { 2 } } .

A) (,4][4,)( - \infty , - 4 ] \cup [ 4 , \infty )
B) (,4]( - \infty , 4 ]
C) [4,4][ - 4,4 ]
D) [4,)[ - 4 , \infty )
E) (,)( - \infty , \infty )
Question
Find the interval(s) for b such that the following equation has at least one real solution and write a conjecture about the interval(s) based on the values of the coefficients
4x2+bx+13=04 x ^ { 2 } + b x + 13 = 0 .

A) (,252][252,)( - \infty , - 2 \sqrt { 52 } ] \cup [ 2 \sqrt { 52 } , \infty ) If a>0a > 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
B) (,252][252,)( - \infty , - 2 \sqrt { 52 } ] \cup [ - 2 \sqrt { 52 } , \infty ) If a>0a > 0 and c<0c < 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
C) (,252][252,)( - \infty , 2 \sqrt { 52 } ] \cup [ 2 \sqrt { 52 } , \infty ) If a>0a > 0 and c>0c > 0 , b2ac- b \leq - 2 \sqrt { a c } or b2acb \leq 2 \sqrt { a c }
D) (,252][252,)( - \infty , 2 \sqrt { 52 } ] \cap [ 2 \sqrt { 52 } , \infty ) If a<0a < 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
E) (,252][252,)( - \infty , - 2 \sqrt { 52 } ] \cap [ 2 \sqrt { 52 } , \infty ) If a<0a < 0 and c<0c < 0 , b2acb \leq 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
Question
When two resistors of resistances R1R _ { 1 } and R2R _ { 2 } are connected in parallel (see figure), the total resistance RR satisfies the equation 1R=1R1+1R2\frac { 1 } { R } = \frac { 1 } { R _ { 1 } } + \frac { 1 } { R _ { 2 } } . <strong>When two resistors of resistances R _ { 1 } and R _ { 2 } are connected in parallel (see figure), the total resistance R satisfies the equation \frac { 1 } { R } = \frac { 1 } { R _ { 1 } } + \frac { 1 } { R _ { 2 } } . Find R _ { 1 } for a parallel circuit in which R _ { 2 } = 7 ohms and R must be at least 1 ohm. </strong> A) R _ { 1 } \leq 7 \text { ohms } B) R _ { 1 } < 7 \text { ohms } C) R _ { 1 } \geq \frac { 7 } { 6 } \text { ohms } D) R _ { 1 } > 7 \mathrm { ohms } E) R _ { 1 } = \frac { 7 } { 6 } \text { ohms } <div style=padding-top: 35px> Find R1R _ { 1 } for a parallel circuit in which R2=7R _ { 2 } = 7 ohms and R must be at least 1 ohm.

A) R17 ohms R _ { 1 } \leq 7 \text { ohms }
B) R1<7 ohms R _ { 1 } < 7 \text { ohms }
C) R1R _ { 1 } \geq 76\frac { 7 } { 6 }  ohms \text { ohms }
D) R1>7ohmsR _ { 1 } > 7 \mathrm { ohms }
E) R1=R _ { 1 } = 76\frac { 7 } { 6 }  ohms \text { ohms }
Question
The graph of the function
f(x)=3xx24f ( x ) = \frac { 3 x } { x ^ { 2 } - 4 } is shown below.Determine the domain. <strong>The graph of the function f ( x ) = \frac { 3 x } { x ^ { 2 } - 4 } is shown below.Determine the domain. </strong> A)Domain: all real numbers except x = -2 and x = 2 B)Domain: all real numbers except x = 2 C)Domain: all real numbers except x = 0 D)Domain: all real numbers except x = 1 E)Domain: all real numbers except x = 4 <div style=padding-top: 35px>

A)Domain: all real numbers except x = -2 and x = 2
B)Domain: all real numbers except x = 2
C)Domain: all real numbers except x = 0
D)Domain: all real numbers except x = 1
E)Domain: all real numbers except x = 4
Question
Find the zeros (if any) of the rational function.
f(x)=18x8f ( x ) = 1 - \frac { 8 } { x - 8 }

A) 8
B)-1
C) -16
D)1
E) 16
Question
Determine the domain of the function f(x)=5(x2)4f ( x ) = \frac { 5 } { ( x - 2 ) ^ { 4 } } .

A)Domain: all real numbers except x = -5 and -2
B)Domain: all real numbers
C)Domain: all real numbers except x = -5 and 2
D)Domain: all real numbers except x = 2
E)Domain: all real numbers except x = 5 and 2
Question
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=25x2f ( x ) = \frac { 25 } { x ^ { 2 } }

A)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = 0
B) Domain: all real numbers x except x = 5Vertical asymptote: x = 0Horizontal asymptote: y = 0
C) Domain: all real numbers x except x = 25Vertical asymptote: x = 0Horizontal asymptote: y = 0
D) Domain: all real numbers xVertical asymptote: x = 0Horizontal asymptote: y = 0
E) Domain: all real numbers x except x = ±5Vertical asymptote: y = 0Horizontal asymptote: x = 0
Question
Determine the equations of the vertical and horizontal asymptotes of the graph of the function f(x)=5x2x24f ( x ) = \frac { 5 x ^ { 2 } } { x ^ { 2 } - 4 } .

A)horizontal: y = -2; vertical: x = 5
B)horizontal: x = 2 and x = -2; vertical: y = -5
C)horizontal: y = 5; vertical: x = 2 and x = -2
D)horizontal: x = -5; vertical: y = 2 and y = -2
E)horizontal: y = 5; vertical: x = 2
Question
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=9(x3)3f ( x ) = \frac { 9 } { ( x - 3 ) ^ { 3 } }

A)Domain: all real numbers xVertical asymptote: x = 0Horizontal asymptote: y = 0
B)Domain: all real numbers x except x = 9Vertical asymptote: x = 0Horizontal asymptote: y = 0
C)Domain: all real numbers x except x = 3Vertical asymptote: x = 0Horizontal asymptote: y = 9
D)Domain: all real numbers xVertical asymptote: x = 0Horizontal asymptote: y = 9
E)Domain: all real numbers x except x = 3Vertical asymptote: x = 3Horizontal asymptote: y = 0
Question
Find the domain of the function and identify any vertical and horizontal asymptotes. f(x)=5x2+8x2+x+9f ( x ) = \frac { 5 x ^ { 2 } + 8 } { x ^ { 2 } + x + 9 }

A)Domain: all real numbers x
Vertical asymptote: No vertical asymptoteHorizontal asymptote: y = 5
B)Domain: all real numbers except x = 0
Vertical asymptote: x = 0
Horizontal asymptote: y = -8
C)Domain: all real numbers x
Vertical asymptote: x = -5
Horizontal asymptote: y = 0
D)Domain: all real numbers except x = 5
Vertical asymptote: No vertical asymptote
Horizontal asymptote: No horizontal asymptote
E)Domain: all real numbers except x = 9
Vertical asymptote: x = 5
Horizontal asymptote: y = 8
Question
Find the domain of the function.
g(s)=3ss9g ( s ) = \frac { - 3 s } { s - 9 }

A)s = 9
B)all real numbers s \neq 9, s \neq 0
C) s = 9, s = 0
D)all real numbers s \neq 9
E) \varnothing
Question
Select the correct graph of the function f(x)=8x2f ( x ) = \frac { 8 } { x - 2 } .

A) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
Find the zeros (if any) of the rational function.
f(x)=1+6x27f ( x ) = 1 + \frac { 6 } { x ^ { 2 } - 7 }

A)±7
B)±6
C)6
D)±1
E) 7
Question
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=2x2x+3f ( x ) = \frac { 2 x ^ { 2 } } { x + 3 }

A)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = -2
B)Domain: all real numbers x except x = -3Vertical asymptote: x = -3Horizontal asymptote: No horizontal asymptote
C)Domain: all real numbers x except x = 3Vertical asymptote: x = 3Horizontal asymptote: No horizontal asymptote
D)Domain: all real numbers x except x = 3Vertical asymptote: x = 3Horizontal asymptote: y = 2
E)Domain: all real numbers xVertical asymptote: x = -3Horizontal asymptote: y = 0
Question
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=x3x249f ( x ) = \frac { x ^ { 3 } } { x ^ { 2 } - 49 }

A)Domain: all real numbers x except x = 0Vertical asymptote: x = ±7Horizontal asymptote: No horizontal asymptote
B)Domain: all real numbers x except x = ±7Vertical asymptote: x = ±7Horizontal asymptote: No horizontal asymptote
C)Domain: all real numbers x except x = 7Vertical asymptote: x = 7Horizontal asymptote: y = 7
D)Domain: all real numbers xVertical asymptote: x = -7Horizontal asymptote: y = 0
E)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = -49
Question
Determine the zeros (if any) of the rational function g(x)=6+3x2+6g ( x ) = 6 + \frac { 3 } { x ^ { 2 } + 6 } .

A)x = -6, x = 6
B) x=6,x=6x = - \sqrt { 6 } , x = \sqrt { 6 }
C) x=12,x=12x = - \frac { 1 } { 2 } , x = \frac { 1 } { 2 }
D)x = -3
E)no zeros
Question
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=7+x7xf ( x ) = \frac { 7 + x } { 7 - x }

A)Domain: all real numbers x except x = 7Vertical asymptote: x = 7Horizontal asymptote: y = -1
B)Domain: all real numbers xVertical asymptote: x = -7Horizontal asymptote: y = 0
C)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = -1
D)Domain: all real numbers x except x = 7Vertical asymptote: x = 0Horizontal asymptote: y = -7
E)Domain: all real numbers x except x = -7Vertical asymptote: x = 0Horizontal asymptote: y = 7
Question
Find the zeros (if any) of the rational function.
g(x)=x225x+5g ( x ) = \frac { x ^ { 2 } - 25 } { x + 5 }

A)-25
B)±5
C)-5
D)25
E)5
Question
Select the correct graph of the function f(x)=6x+4f ( x ) = \frac { 6 } { x + 4 } .

A) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
Determine the zeros (if any) of the rational function f(x)=x24x4f ( x ) = \frac { x ^ { 2 } - 4 } { x - 4 } .

A)x = -4, x = 4
B)no zeros
C)x = -3
D) x=23,x=23x = - \frac { 2 } { 3 } , x = \frac { 2 } { 3 }
E)x = -2, x = 2
Question
Select the correct graph of the function f(x)=x4x7f ( x ) = \frac { x - 4 } { x - 7 } .

A) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
Find the zeros (if any) of the rational function.
f(x)=2+12x2+2f ( x ) = 2 + \frac { 12 } { x ^ { 2 } + 2 }

A)-2
B)2
C)8
D)-8
E)None
Question
Select the graph of the rational function f(x)=x+6x+7f ( x ) = - \frac { x + 6 } { x + 7 } .

A) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E) <div style=padding-top: 35px>
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Deck 2: Polynomial and Rational Functions
1
Solve the inequality and graph the solution on the real number line.
(x7)21( x - 7 ) ^ { 2 } \geq 1

A) (,6][8,)( - \infty , - 6 ] \cup [ - 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty )
B) (,6][8,)( - \infty , 6 ] \cup [ 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty )
C) (,8][6,)( - \infty , 8 ] \cup [ 6 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty )
D) (,8][6,)( - \infty , 8 ] \cup [ 6 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty )
E) (,6][8,)( - \infty , 6 ] \cup [ 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. ( x - 7 ) ^ { 2 } \geq 1 </strong> A) ( - \infty , - 6 ] \cup [ - 8 , \infty ) B) ( - \infty , 6 ] \cup [ 8 , \infty ) C) ( - \infty , 8 ] \cup [ 6 , \infty ) D) ( - \infty , 8 ] \cup [ 6 , \infty ) E) ( - \infty , 6 ] \cup [ 8 , \infty )
(,6][8,)( - \infty , 6 ] \cup [ 8 , \infty ) ( - \infty , 6 ] \cup [ 8 , \infty )
2
Solve the inequality and graph the solution on the real number line.
x2+5x+13>0x ^ { 2 } + 5 x + 13 > 0

A) x13x \geq - 13 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers
B) x13x \leq 13 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers
C) x>5x > 5 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers
D) x<5x < - 5 <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers
E)All real numbers <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 5 x + 13 > 0 </strong> A) x \geq - 13 B) x \leq 13 C) x > 5 D) x < - 5 E)All real numbers
All real numbers All real numbers
3
Solve the inequality and write the solution set in interval notation.
5x320x2>05 x ^ { 3 } - 20 x ^ { 2 } > 0

A) (4,)( 4 , \infty )
B) (4,)( - 4 , - \infty )
C) (4,)( - 4 , \infty )
D) (4,)( 4 , - \infty )
E) (,5)( - \infty , 5 )
(4,)( 4 , \infty )
4
Solve the inequality and write the solution set in interval notation.
x336x0x ^ { 3 } - 36 x \geq 0

A) [6,0][6,][ - 6,0 ] \cup [ 6 , \infty ]
B) [6,0][6,)[ - 6,0 ] \cup [ 6 , \infty )
C) [36,0][6,][ - 36,0 ] \cap [ 6 , \infty ]
D) [36,0][6,)[ - 36,0 ] \cup [ - 6 , \infty )
E) [6,0][6,)[ - 6,0 ] \cap [ 6 , \infty )
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5
Solve the inequality and graph the solution on the real number line.
x210x24>0x ^ { 2 } - 10 x - 24 > 0

A) (,2)(12,)( - \infty , - 2 ) \cup ( 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty )
B) (,2)(12,)( - \infty , - 2 ) \cap ( - 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty )
C) (,2)(,12,)( - \infty , - 2 ) \cup ( - \infty , - 12 , ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty )
D) (,2)[12,)( \infty , - 2 ) \cup [ 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty )
E) (,2](12,)( - \infty , 2 ] \cup ( 12 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x - 24 > 0 </strong> A) ( - \infty , - 2 ) \cup ( 12 , \infty ) B) ( - \infty , - 2 ) \cap ( - 12 , \infty ) C) ( - \infty , - 2 ) \cup ( - \infty , - 12 , ) D) ( \infty , - 2 ) \cup [ 12 , \infty ) E) ( - \infty , 2 ] \cup ( 12 , \infty )
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6
Solve the inequality and graph the solution on the real number line.
x210x+8<19x ^ { 2 } - 10 x + 8 < 19

A) (1,11)( - 1,11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 )
B) (1,11)( - 1 , - 11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 )
C) (1,11)( 1 , - 11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 )
D) (1,11)( - 1 , - 11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 )
E) (1,11)( - 1,11 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } - 10 x + 8 < 19 </strong> A) ( - 1,11 ) B) ( - 1 , - 11 ) C) ( 1 , - 11 ) D) ( - 1 , - 11 ) E) ( - 1,11 )
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7
Solve the inequality and graph the solution on the real number line.
x2<4x ^ { 2 } < 4

A) [2,2][ - 2,2 ] <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 )
B) [2,2][ - 2,2 ] <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 )
C) (2,2)( - 2,2 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 )
D) (2,2)( - 2,2 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 )
E) (2,2)( - 2,2 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } < 4 </strong> A) [ - 2,2 ] B) [ - 2,2 ] C) ( - 2,2 ) D) ( - 2,2 ) E) ( - 2,2 )
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8
Solve the inequality and graph the solution on the real number line.
x33x2x>3x ^ { 3 } - 3 x ^ { 2 } - x > - 3

A) (1,1)(3,)( - 1,1 ) \cup ( 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty )
B) (1,1)(3,)( - 1,1 ) \cup ( - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty )
C) (1,1)(3,)( - 1,1 ) \cup ( 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty )
D) (1,1)(3,)( - 1,1 ) \cup ( - 3 , - \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty )
E) (1,1)(3,)( - 1,1 ) \cup ( - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 3 } - 3 x ^ { 2 } - x > - 3 </strong> A) ( - 1,1 ) \cup ( 3 , \infty ) B) ( - 1,1 ) \cup ( - 3 , \infty ) C) ( - 1,1 ) \cup ( 3 , \infty ) D) ( - 1,1 ) \cup ( - 3 , - \infty ) E) ( - 1,1 ) \cup ( - 3 , \infty )
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9
Solve the inequality and graph the solution on the real number line
x3+3x29x270x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0

A) (,3]( - \infty , 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 )
B) (,3)( - \infty , 3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 )
C) (,3]( - \infty , 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 )
D) (,3]( - \infty , - 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 )
E) (,3)( - \infty , - 3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 3 } + 3 x ^ { 2 } - 9 x - 27 \leq 0 </strong> A) ( - \infty , 3 ] B) ( - \infty , 3 ) C) ( - \infty , 3 ] D) ( - \infty , - 3 ] E) ( - \infty , - 3 )
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10
Determine whether the value of x=6x = - 6 is a solution of the inequality. x2x140x ^ { 2 } - x - 14 \geq 0
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11
Determine whether the value of x=1x = - 1 is a solution of the inequality. 3x2x2+4<1\frac { 3 x ^ { 2 } } { x ^ { 2 } + 4 } < 1
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12
Solve the inequality and graph the solution on the real number line.
x2+3x>4x ^ { 2 } + 3 x > 4

A) (,4)(1,)( - \infty , - 4 ) \cup ( 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty )
B) (,4)(1,)( - \infty , - 4 ) \cup ( - 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty )
C) (,4)(1,)( - \infty , - 4 ) \cup ( 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty )
D) (,4)(1,)( - \infty , - 4 ) \cup ( - 1 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty )
E) (,4)(1,)( - \infty , - 4 ) \cup ( 1 , - \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + 3 x > 4 </strong> A) ( - \infty , - 4 ) \cup ( 1 , \infty ) B) ( - \infty , - 4 ) \cup ( - 1 , \infty ) C) ( - \infty , - 4 ) \cup ( 1 , \infty ) D) ( - \infty , - 4 ) \cup ( - 1 , \infty ) E) ( - \infty , - 4 ) \cup ( 1 , - \infty )
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13
Determine whether the value of x=27x = \frac { 2 } { 7 } is a solution of the inequality. x22<0x ^ { 2 } - 2 < 0
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14
Solve the inequality and write the solution set in interval notation.
6x210x<06 x ^ { 2 } - 10 x < 0

A) (,0)][( - \infty , 0 ) ] \cup [ 53\frac { 5 } { 3 } ,), \infty )
B) \varnothing
C) (,0)( - \infty , 0 ) 53\frac { 5 } { 3 } ,), \infty )
D) (,0)[( \infty , 0 ) \cup [ - 53\frac { 5 } { 3 } ,), \infty )
E) (0,( 0 , 53\frac { 5 } { 3 } )
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15
Solve the inequality and graph the solution on the real number line.
x2+x<12x ^ { 2 } + x < 12

A) (4,3)( - 4,3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 )
B) (4,3)( - 4,3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 )
C) (4,3)( 4,3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 )
D) (4,3)( - 4 , - 3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 )
E) (4,3)( - 4 , - 3 ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } + x < 12 </strong> A) ( - 4,3 ) B) ( - 4,3 ) C) ( 4,3 ) D) ( - 4 , - 3 ) E) ( - 4 , - 3 )
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16
Find the key numbers of the expression.
1x7+1\frac { 1 } { x - 7 } + 1

A)-6, 7
B)6, 7, 1
C)-6, -7
D)6, 7
E)6, -7
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17
Solve the inequality and graph the solution on the real number line.
9x26x+109 x ^ { 2 } - 6 x + 1 \leq 0

A) x=3x = 3 <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3
B) x=13x = \frac { 1 } { 3 } <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3
C) x=19x = \frac { 1 } { 9 } <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3
D) x=13x = - \frac { 1 } { 3 } <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3
E) x=3x = - 3 <strong>Solve the inequality and graph the solution on the real number line. 9 x ^ { 2 } - 6 x + 1 \leq 0 </strong> A) x = 3 B) x = \frac { 1 } { 3 } C) x = \frac { 1 } { 9 } D) x = - \frac { 1 } { 3 } E) x = - 3
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18
Solve the inequality and graph the solution on the real number line.
x2>2x+48x ^ { 2 } > 2 x + 48

A) (,6)(8,)( - \infty , - 6 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty )
B) (,6)(8,)( - \infty , 6 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty )
C) (,6)(8,)( - \infty , - 6 ) \cup ( - 8 , - \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty )
D) (,6)(8,)( - \infty , - 6 ) \cup ( - 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty )
E) (,6)(8,)( - \infty , 6 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. x ^ { 2 } > 2 x + 48 </strong> A) ( - \infty , - 6 ) \cup ( 8 , \infty ) B) ( - \infty , 6 ) \cup ( 8 , \infty ) C) ( - \infty , - 6 ) \cup ( - 8 , - \infty ) D) ( - \infty , - 6 ) \cup ( - 8 , \infty ) E) ( - \infty , 6 ) \cup ( 8 , \infty )
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19
Find the key numbers of the expression.
16x349x216 x ^ { 3 } - 49 x ^ { 2 }

A)0, 1649\frac { 16 } { 49 }
B)0, 49
C)0, 51
D)0, -49
E)0, 4916\frac { 49 } { 16 }
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20
Solve the inequality and graph the solution on the real number line
x29x ^ { 2 } \leq 9

A) (3,3)( - 3,3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 )
B) [3,3][ - 3,3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 )
C) [3,3][ - 3,3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 )
D) [3,3][ 3 , - 3 ] <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 )
E) (3,3)( - 3,3 ) <strong>Solve the inequality and graph the solution on the real number line x ^ { 2 } \leq 9 </strong> A) ( - 3,3 ) B) [ - 3,3 ] C) [ - 3,3 ] D) [ 3 , - 3 ] E) ( - 3,3 )
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21
Solve the inequality and graph the solution on the real number line. 4x1x>0\frac { 4 x - 1 } { x } > 0

A) (,0)(14,)( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right)
B) (,0)(14,)( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right)
C) (,0)(14,14)( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right)
D) (,0)(14,)( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right)
E) (,0)(14,)( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right) <strong>Solve the inequality and graph the solution on the real number line. \frac { 4 x - 1 } { x } > 0 </strong> A) ( - \infty , 0 ) \cup \left( \frac { 1 } { 4 } , \infty \right) B) ( - \infty , 0 ) \cup \left( - \frac { 1 } { 4 } , \infty \right) C) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \frac { 1 } { 4 } \right) D) ( - \infty , 0 ) \cap \left( \frac { 1 } { 4 } , \infty \right) E) ( - \infty , 0 ) \cap \left( - \frac { 1 } { 4 } , \infty \right)
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22
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality.
Equation: y=7xx2+6y = \frac { 7 x } { x ^ { 2 } + 6 }
Inequality: y1y \geq 1

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 1x61 \leq x \leq 6
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 1x<61 \leq x < 6
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 1<x<61 < x < 6
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 1<x61 < x \leq 6
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the following inequality. Equation: y = \frac { 7 x } { x ^ { 2 } + 6 } Inequality: y \geq 1 </strong> A) 1 \leq x \leq 6 B) 1 \leq x < 6 C) 1 < x < 6 D) 1 < x \leq 6 E) 1 < x \leq 6 1<x61 < x \leq 6
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23
Solve the inequality and graph the solution on the real number line.
x2+x12x0\frac { x ^ { 2 } + x - 12 } { x } \geq 0

A) [4,0)[3,)[ - 4,0 ) \cap [ 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty )
B) [4,0)[3,)[ 4,0 ) \cup [ 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty )
C) [4,0)[3,)[ 4,0 ) \cup [ - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty )
D) [4,0)[3,)[ - 4,0 ) \cap [ - 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty )
E) [4,0)[3,)[ - 4,0 ) \cup [ 3 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + x - 12 } { x } \geq 0 </strong> A) [ - 4,0 ) \cap [ 3 , \infty ) B) [ 4,0 ) \cup [ 3 , \infty ) C) [ 4,0 ) \cup [ - 3 , \infty ) D) [ - 4,0 ) \cap [ - 3 , \infty ) E) [ - 4,0 ) \cup [ 3 , \infty )
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24
Find the domain of x in the expression.
x27x+12\sqrt { x ^ { 2 } - 7 x + 12 }

A) (,3][4,)( - \infty , 3 ] \cup [ 4 , \infty )
B) (,3][4,)( - \infty , 3 ] \cap [ 4 , \infty )
C) (,3][4,)( \infty , - 3 ] \cup [ 4 , \infty )
D) (,3][4,)( \infty , 3 ] \cap [ 4 , \infty )
E) (,3][4,)( \infty , - 3 ] \cap [ 4 , \infty )
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25
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=6(x6)x+5y = \frac { 6 ( x - 6 ) } { x + 5 }
Inequality: y0y \leq 0

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 5x6- 5 \leq x \leq 6
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 5<x>6- 5 < x > 6
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 5<x6- 5 < x \leq 6
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 5<x6- 5 < x \leq 6
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 ( x - 6 ) } { x + 5 } Inequality: y \leq 0 </strong> A) - 5 \leq x \leq 6 B) - 5 < x > 6 C) - 5 < x \leq 6 D) - 5 < x \leq 6 E) - 5 < x < 6 5<x<6- 5 < x < 6
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26
Find the domain of x in the expression.
94x2\sqrt { 9 - 4 x ^ { 2 } }

A) [32,32]\left[ \frac { 3 } { 2 } , \frac { 3 } { 2 } \right]
B) [32,32]\left[ - \frac { 3 } { 2 } , - \frac { 3 } { 2 } \right]
C) [32,32]\left[ - \frac { 3 } { 2 } , \frac { 3 } { 2 } \right] .
D) [23,23]\left[ - \frac { 2 } { 3 } , \frac { 2 } { 3 } \right]
E) [32,32]\left[ - \frac { 3 } { 2 } , - \frac { 3 } { 2 } \right] .
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27
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=5x2x2+25y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 }
Inequality: y2y \leq 2

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <x533- \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 }
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <x<- \infty < x < \infty
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } 533x533- \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 }
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <x33- \infty < x \leq \frac { \sqrt { 3 } } { 3 }
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 5 x ^ { 2 } } { x ^ { 2 } + 25 } Inequality: y \leq 2 </strong> A) - \infty < x \leq \frac { 5 \sqrt { 3 } } { 3 } B) - \infty < x < \infty C) - \frac { 5 \sqrt { 3 } } { 3 } \leq x \leq \frac { 5 \sqrt { 3 } } { 3 } D) - \infty < x \leq \frac { \sqrt { 3 } } { 3 } E) - \infty < x \leq 5 \sqrt { 3 } <x53- \infty < x \leq 5 \sqrt { 3 }
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28
Find the domain of x in the expression.
25x2\sqrt { 25 - x ^ { 2 } }

A) (25,25)( - 25,25 )
B) [25,25][ - 25,25 ]
C) (5,5)( - 5,5 )
D) [5,25)[ - 5,25 )
E) [5,5][ - 5,5 ]
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29
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=x3x216x+16y = x ^ { 3 } - x ^ { 2 } - 16 x + 16
Inequality: y0y \leq 0

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <x41x4\begin{array} { l } \infty < x \leq 4 \\1 \leq x \leq 4\end{array}
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <x41x4\begin{array} { l } \infty < x \leq - 4 \\1 \leq x \leq 4\end{array}
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <x41x4\begin{array} { l } - \infty < x \leq - 4 \\- 1 \leq x \leq - 4\end{array}
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <x41x4\begin{array} { l } - \infty < x \leq - 4 \\1 \leq x \leq 4\end{array}
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = x ^ { 3 } - x ^ { 2 } - 16 x + 16 Inequality: y \leq 0 </strong> A) \begin{array} { l } \infty < x \leq 4 \\ 1 \leq x \leq 4 \end{array} B) \begin{array} { l } \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} C) \begin{array} { l } - \infty < x \leq - 4 \\ - 1 \leq x \leq - 4 \end{array} D) \begin{array} { l } - \infty < x \leq - 4 \\ 1 \leq x \leq 4 \end{array} E) - \infty < x \leq 4 <x4- \infty < x \leq 4
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30
Find the domain of x in the expression.
xx22x24\sqrt { \frac { x } { x ^ { 2 } - 2 x - 24 } }

A) (4,0](6,)( - 4,0 ] \cap ( 6 , \infty )
B) (6,0](4,)( - 6,0 ] \cup ( 4 , \infty )
C) (4,0](6,)( - 4,0 ] \cup ( 6 , \infty )
D) (4,0](6,)( - 4,0 ] \cup ( - 6 , \infty )
E) (6,0](4,)( - 6,0 ] \cap ( - 4 , \infty )
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31
Find the domain of x in the expression.
x24\sqrt { x ^ { 2 } - 4 }

A) (,2][2,)( - \infty , 2 ] \cap [ 2 , \infty )
B) (,2][2,)( - \infty , - 2 ] \cup [ 2 , \infty )
C) (,2][2,)( - \infty , - 2 ] \cap [ 2 , \infty )
D) (,2][2,)( - \infty , 2 ] \cup [ 2 , \infty )
E) (,2)[2,)( - \infty , - 2 ) \cup [ 2 , \infty )
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32
Solve the inequality and graph the solution on the real number line.
1x1x+2\frac { 1 } { x } \geq \frac { 1 } { x + 2 }

A) (,2)(0,)( - \infty , - 2 ) \cap ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty )
B) (,2)(0,)( - \infty , - 2 ) \cup ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty )
C) (,2)(0,)( - \infty , 2 ) \cap ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty )
D) (,2)(0,)( \infty , 2 ) \cup ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty )
E) (,2)(0,)( - \infty , 2 ) \cup ( 0 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 1 } { x } \geq \frac { 1 } { x + 2 } </strong> A) ( - \infty , - 2 ) \cap ( 0 , \infty ) B) ( - \infty , - 2 ) \cup ( 0 , \infty ) C) ( - \infty , 2 ) \cap ( 0 , \infty ) D) ( \infty , 2 ) \cup ( 0 , \infty ) E) ( - \infty , 2 ) \cup ( 0 , \infty )
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33
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality.
Equation: y=6xx5y = \frac { 6 x } { x - 5 }
Inequality: y8y \geq 8

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } 5<x1015 < x \leq - \frac { 10 } { 1 }
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } 5<x1015 < x \leq \frac { 10 } { 1 }
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } 5<x5 < x
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } 5<x1015 < x \leq \frac { 10 } { 1 }
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy each inequality. Equation: y = \frac { 6 x } { x - 5 } Inequality: y \geq 8 </strong> A) 5 < x \leq - \frac { 10 } { 1 } B) 5 < x \leq \frac { 10 } { 1 } C) 5 < x D) 5 < x \leq \frac { 10 } { 1 } E) 6 < x \leq \frac { 10 } { 1 } 6<x1016 < x \leq \frac { 10 } { 1 }
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34
Find the domain of x in the expression.
xx236\sqrt { \frac { x } { x ^ { 2 } - 36 } }

A) (36,0](36,)( - 36,0 ] \cup ( 36 , \infty )
B) (36,0](36,)( - 36,0 ] \cap ( 36 , \infty )
C) (36,0](6,)( - 36,0 ] \cap ( 6 , \infty )
D) (6,0](6,)( - 6,0 ] \cup ( 6 , \infty )
E) (36,0](6,)( - 36,0 ] \cap ( - 6 , \infty )
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35
Solve the inequality and graph the solution on the real number line.
x2+4xx2250\frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0

A) (5,4][0,5)( - 5 , - 4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 )
B) (5,4][0,5)( - 5,4 ] \cup [ 0 , - 5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 )
C) (5,4][0,5)( - 5,4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 )
D) (5,4][0,5)( 5 , - 4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 )
E) (5,4][0,5)( 5,4 ] \cup [ 0,5 ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x ^ { 2 } + 4 x } { x ^ { 2 } - 25 } \leq 0 </strong> A) ( - 5 , - 4 ] \cup [ 0,5 ) B) ( - 5,4 ] \cup [ 0 , - 5 ) C) ( - 5,4 ] \cup [ 0,5 ) D) ( 5 , - 4 ] \cup [ 0,5 ) E) ( 5,4 ] \cup [ 0,5 )
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36
Solve the inequality and graph the solution on the real number line. 3x5x50\frac { 3 x - 5 } { x - 5 } \geq 0

A)( ,53- \infty , \frac { 5 } { 3 } ]  U (5,)\text { U } ( 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty )
B)( ,53- \infty , \frac { 5 } { 3 } ] (5,)\cup ( - 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty )
C)( ,53- \infty , - \frac { 5 } { 3 } ]  U (5,)\text { U } ( 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty )
D)( ,53- \infty , - \frac { 5 } { 3 } ] (5,)\cup ( - 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty )
E)( ,53- \infty , \frac { 5 } { 3 } ] (5,)\cap ( 5 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 3 x - 5 } { x - 5 } \geq 0 </strong> A)( - \infty , \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) B)( - \infty , \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) C)( - \infty , - \frac { 5 } { 3 } ] \text { U } ( 5 , \infty ) D)( - \infty , - \frac { 5 } { 3 } ] \cup ( - 5 , \infty ) E)( - \infty , \frac { 5 } { 3 } ] \cap ( 5 , \infty )
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37
Solve the inequality and graph the solution on the real number line.
x+9x+12<0\frac { x + 9 } { x + 1 } - 2 < 0

A) (,1)(7,)( - \infty , - 1 ) \cup ( 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty )
B) (,1)(7,)( - \infty , - 1 ) \cap ( - 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty )
C) (,1)(7,)( - \infty , 1 ) \cap ( 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty )
D) (,1)(7,)( - \infty , - 1 ) \cup ( - 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty )
E) (,1)(7,)( - \infty , - 1 ) \cap ( 7 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { x + 9 } { x + 1 } - 2 < 0 </strong> A) ( - \infty , - 1 ) \cup ( 7 , \infty ) B) ( - \infty , - 1 ) \cap ( - 7 , \infty ) C) ( - \infty , 1 ) \cap ( 7 , \infty ) D) ( - \infty , - 1 ) \cup ( - 7 , \infty ) E) ( - \infty , - 1 ) \cap ( 7 , \infty )
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38
Solve the inequality and graph the solution on the real number line.
2x+4>1x2\frac { 2 } { x + 4 } > \frac { 1 } { x - 2 }

A) (4,2)(8,)( - 4,2 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty )
B) (4,2)(8,)( - 4,2 ) \cap ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty )
C) (4,2)(8,)( - 4 , - 2 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty )
D) (4,2)(8,)( - 4,2 ) \cap ( - 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty )
E) (4,2)(8,)( 4,2 ) \cup ( 8 , \infty ) <strong>Solve the inequality and graph the solution on the real number line. \frac { 2 } { x + 4 } > \frac { 1 } { x - 2 } </strong> A) ( - 4,2 ) \cup ( 8 , \infty ) B) ( - 4,2 ) \cap ( 8 , \infty ) C) ( - 4 , - 2 ) \cup ( 8 , \infty ) D) ( - 4,2 ) \cap ( - 8 , \infty ) E) ( 4,2 ) \cup ( 8 , \infty )
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39
Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality.
Equation: y=16x26x+1y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1
Inequality: y0y \leq 0

A) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } x1427,1427x1+427x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } }
B) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } 1427x1+4271 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } }
C) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } x1427,1+427xx \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x
D) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } x1427,1+427xx \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x
E) <strong>Use a graphing utility to graph the equation.Use the graph to approximate the values of x that satisfy the inequality. Equation: y = \frac { 1 } { 6 } x ^ { 2 } - 6 x + 1 Inequality: y \leq 0 </strong> A) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq 1 + \sqrt { \frac { 4 } { 27 } } B) 1 - \sqrt { \frac { 4 } { 27 } } \leq \mathrm { x } \leq 1 + \sqrt { \frac { 4 } { 27 } } C) x \leq 1 - \sqrt { \frac { 4 } { 27 } } , 1 + \sqrt { \frac { 4 } { 27 } } \leq x D) x \leq - 1 - \sqrt { \frac { 4 } { 27 } } , - 1 + \sqrt { \frac { 4 } { 27 } } \leq x E) - 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } } 1427x1+427- 1 - \sqrt { \frac { 4 } { 27 } } \leq x \leq - 1 + \sqrt { \frac { 4 } { 27 } }
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40
Solve the inequality and write the solution set in interval notation.
x8(x2)0x ^ { 8 } ( x - 2 ) \leq 0

A) (,2]( - \infty , 2 ]
B) (,2)]( - \infty , - 2 ) ]
C) (,2]( - \infty , 2 ] .
D) (2,2]( - 2,2 ]
E) (,2)( - \infty , 2 )
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41
Solve the inequality 36xx3<036 x - x ^ { 3 } < 0 and write the solution set in interval notation.

A) (,6)(0,6)( - \infty , - 6 ) \cup ( 0,6 )
B) (6,6)( - 6,6 )
C) (,6)( - \infty , 6 )
D) (6,0)(6,)( - 6,0 ) \cup ( 6 , \infty )
E) (,)( - \infty , \infty )
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42
Find the interval(s) for b such that the equation has at least one real solution and write a conjecture about the interval(s) based on the values of the coefficients
4x2+bx+7=04 x ^ { 2 } + b x + 7 = 0 .

A) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cap [ 2 \sqrt { 28 } , \infty ) If a>0a > 0 and c<0c < 0 , b2acb \geq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
B) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cup [ - 2 \sqrt { 28 } , \infty ) If a<0a < 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \leq 2 \sqrt { a c }
C) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cup [ 2 \sqrt { 28 } , \infty ) If a>0a > 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
D) (,228][228,)( - \infty , 2 \sqrt { 28 } ] \cup [ 2 \sqrt { 28 } , \infty ) If a>0a > 0 and c>0c > 0 , b2acb \leq 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
E) (,228][228,)( - \infty , - 2 \sqrt { 28 } ] \cap [ 2 \sqrt { 28 } , \infty ) If a<0a < 0 and c<0c < 0 , b2acb \leq 2 \sqrt { a c } or b2acb \leq 2 \sqrt { a c }
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43
Find the domain of x in the expression x33x4\sqrt [ 4 ] { x ^ { 3 } - 3 x } .

A) (,3],[3,)( - \infty , - \sqrt { 3 } ] , [ \sqrt { 3 } , \infty )
B) (,3],[3,)( - \infty , \sqrt { 3 } ] , [ \sqrt { 3 } , \infty )
C) [3,0],[3,)[ - \sqrt { 3 } , 0 ] , [ \sqrt { 3 } , \infty )
D) [3,3][ - \sqrt { 3 } , \sqrt { 3 } ]
E) (,3),(0,3)( - \infty , - \sqrt { 3 } ) , ( 0 , \sqrt { 3 } )
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44
Determine the equations of the vertical and horizontal asymptotes of the graph of the function f(x)=xx4f ( x ) = \frac { x } { x - 4 } .

A)horizontal: y = 0 ; vertical: x = 4
B)horizontal: y = -4 ; vertical: x = 0
C)horizontal: x = 0; vertical: y = 4
D)horizontal: x = 4 ; vertical: y = -1
E)horizontal: y = 1 ; vertical: x = 4
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45
A rectangular playing field with a perimeter of 98 meters is to have an area of at least 444 square meters.Within what bounds must the length of the rectangle lie?

A) 444mL13m444 m \leq L \leq 13 m
B) 37mL98m37 m \leq L \leq 98 m
C) 12mL37m12 m \leq L \leq 37 m
D) 39mL14m39 m \leq L \leq 14 m
E) 444m<L<13m444 m < L < 13 m
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46
Find the domain of the function f(x)=9x8f ( x ) = \frac { 9 } { x - 8 } .

A)Domain: all real numbers x except x = 8
B)Domain: all real numbers x except x = 9
C)Domain: all real numbers x except x = -9
D)Domain: all real numbers x
E)Domain: all real numbers x except x = -8
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47
Determine the intervals on which the following polynomial is entirely negative and those on which it is entirely positive. x22x+35- x ^ { 2 } - 2 x + 35

A)entirely negative: (,6)( - \infty , 6 ) ; entirely positive: (6,)( 6 , \infty )
B)entirely negative: (,7),(5,6)( - \infty , - 7 ) , ( 5,6 ) ; entirely positive: (7,6)( - 7,6 )
C)entirely negative: (,7),(5,)( - \infty , - 7 ) , ( 5 , \infty ) ; entirely positive: (7,5)( - 7,5 )
D)entirely negative: (7,6)( - 7,6 ) ; entirely positive: (0,)( 0 , \infty ) <strong>Determine the intervals on which the following polynomial is entirely negative and those on which it is entirely positive. - x ^ { 2 } - 2 x + 35 </strong> A)entirely negative: ( - \infty , 6 ) ; entirely positive: ( 6 , \infty ) B)entirely negative: ( - \infty , - 7 ) , ( 5,6 ) ; entirely positive: ( - 7,6 ) C)entirely negative: ( - \infty , - 7 ) , ( 5 , \infty ) ; entirely positive: ( - 7,5 ) D)entirely negative: ( - 7,6 ) ; entirely positive: ( 0 , \infty ) E)entirely negative: ( - \infty , 0 ) ; entirely positive: ( 0 , \infty )
E)entirely negative: (,0)( - \infty , 0 ) ; entirely positive: (0,)( 0 , \infty )
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48
Find the domain of x in the following expression. x46253\sqrt [ 3 ] { x ^ { 4 } - 625 }

A) [5,5][ - 5,5 ]
B) (,5)(5,)( - \infty , 5 ) \cup ( 5 , \infty )
C) [5,)[ 5 , \infty )
D) (5,)( 5 , \infty )
E)all real numbers
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49
the solution set of the inequality 72x2+7x+140\frac { 7 } { 2 } x ^ { 2 } + 7 x + 14 \geq 0 is the entire set of real numbers.

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50
Find the domain of the function f(x)=6x2x225f ( x ) = \frac { 6 x ^ { 2 } } { x ^ { 2 } - 25 } .

A)Domain: all real numbers x except x = 5
B)Domain: all real numbers x except x = ±25
C)Domain: all real numbers x except x = ±6
D)Domain: all real numbers x except x = -5
E)Domain: all real numbers x except x = ±5
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51
Use the position equation s=16t2+v0t+s0s = - 16 t ^ { 2 } + v _ { 0 } t + s _ { 0 } , where SS represents the height of an object (in feet), v0v_0 represents the initial velocity of the object (in feet per second), s0s_0 represents the initial height of the object (in feet), and t represents the time (in seconds). A projectile is fired straight upward from ground level (s0=0)\left( s _ { 0 } = 0 \right) with an initial velocity of 176 feet per second.At what instant will it be back at ground level?

A) t=11t = 11 Sec
B) t=16t = 16 Sec
C) t=13t = 13 Sec
D) t=12t = 12 Sec
E) t=10t = 10 Sec
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52
The graph of the function f(x)=3x2f ( x ) = \frac { 3 } { x - 2 } is shown below.Determine the vertical and horizontal asymptotes of its graph. <strong>The graph of the function f ( x ) = \frac { 3 } { x - 2 } is shown below.Determine the vertical and horizontal asymptotes of its graph. </strong> A)horizontal: y = 0; vertical: x = 2 B)horizontal: y = 0; vertical: x = -2 C)horizontal: y = -2; vertical: x = 0 D)horizontal: y = 2; vertical: x = 0 E)horizontal: y = -2; vertical: x = 2

A)horizontal: y = 0; vertical: x = 2
B)horizontal: y = 0; vertical: x = -2
C)horizontal: y = -2; vertical: x = 0
D)horizontal: y = 2; vertical: x = 0
E)horizontal: y = -2; vertical: x = 2
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53
Find the interval(s) for b such that the following equation has at least one real solution
x2+bx+6=0x ^ { 2 } + b x + 6 = 0 .

A) (,24][24,)( - \infty , - \sqrt { 24 } ] \cup [ \sqrt { 24 } , \infty )
B) (,24][24,)( - \infty , - \sqrt { 24 } ] \cap [ \sqrt { 24 } , \infty )
C) (,24](24,)( - \infty , \sqrt { 24 } ] \cup ( \sqrt { 24 } , \infty )
D) (,24)[24,)( - \infty , - \sqrt { 24 } ) \cup [ - \sqrt { 24 } , \infty )
E) (,24][24,)( - \infty , \sqrt { 24 } ] \cap [ \sqrt { 24 } , \infty )
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54
A rectangular parking lot with a perimeter of 442 feet is to have an area of at least 8050 square feet.Within what bounds must the length of the rectangle lie?

A) 8050ftL442ft8050 \mathrm { ft } \leq L \leq 442 \mathrm { ft }
B) 177ftL48ft177 \mathrm { ft } \leq L \leq 48 \mathrm { ft }
C) 49ftL178ft49 \mathrm { ft } \leq L \leq 178 \mathrm { ft }
D) 8050ftL47ft8050 \mathrm { ft } \leq L \leq 47 \mathrm { ft }
E) 46ftL175ft46 \mathrm { ft } \leq L \leq 175 \mathrm { ft }
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55
Solve: x22x15<0x ^ { 2 } - 2 x - 15 < 0

A) (,2)( - \infty , - 2 )
B) (3,)( - 3 , \infty )
C) (3,5)( - 3,5 )
D) (,5)( - \infty , 5 )
E) (5,)( 5 , \infty )
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56
Determine the equations of the vertical and horizontal asymptotes of the graph of the function f(x)=1x5f ( x ) = \frac { 1 } { x - 5 } .

A)horizontal: y = 1; vertical: x = 5
B)horizontal: x = 0; vertical: y = 5
C)horizontal: y = -5; vertical: x = 0
D)horizontal: x = 5; vertical: y = -1
E)horizontal: y = 0; vertical: x = 5
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57
Use the position equation s=16t2+v0t+s0s = - 16 t ^ { 2 } + v _ { 0 } t + s _ { 0 } , where s represents the height of an object (in feet), v0v _ { 0 } represents the initial velocity of the object (in feet per second), s0s_0 represents the initial height of the object (in feet), and t represents the time (in seconds). A projectile is fired straight upward from ground level (s0=0)\left( s _ { 0 } = 0 \right) with an initial velocity of 160 feet per second.At what instant will it be back at ground level?

A) t=8t = 8 Sec
B) t=10t = 10 Sec
C) t=12t = 12 Sec
D) t=11t = 11 Sec
E) t=9t = 9 Sec
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58
Find the domain of x in the expression 16x2\sqrt { 16 - x ^ { 2 } } .

A) (,4][4,)( - \infty , - 4 ] \cup [ 4 , \infty )
B) (,4]( - \infty , 4 ]
C) [4,4][ - 4,4 ]
D) [4,)[ - 4 , \infty )
E) (,)( - \infty , \infty )
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59
Find the interval(s) for b such that the following equation has at least one real solution and write a conjecture about the interval(s) based on the values of the coefficients
4x2+bx+13=04 x ^ { 2 } + b x + 13 = 0 .

A) (,252][252,)( - \infty , - 2 \sqrt { 52 } ] \cup [ 2 \sqrt { 52 } , \infty ) If a>0a > 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
B) (,252][252,)( - \infty , - 2 \sqrt { 52 } ] \cup [ - 2 \sqrt { 52 } , \infty ) If a>0a > 0 and c<0c < 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
C) (,252][252,)( - \infty , 2 \sqrt { 52 } ] \cup [ 2 \sqrt { 52 } , \infty ) If a>0a > 0 and c>0c > 0 , b2ac- b \leq - 2 \sqrt { a c } or b2acb \leq 2 \sqrt { a c }
D) (,252][252,)( - \infty , 2 \sqrt { 52 } ] \cap [ 2 \sqrt { 52 } , \infty ) If a<0a < 0 and c>0c > 0 , b2acb \leq - 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
E) (,252][252,)( - \infty , - 2 \sqrt { 52 } ] \cap [ 2 \sqrt { 52 } , \infty ) If a<0a < 0 and c<0c < 0 , b2acb \leq 2 \sqrt { a c } or b2acb \geq 2 \sqrt { a c }
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60
When two resistors of resistances R1R _ { 1 } and R2R _ { 2 } are connected in parallel (see figure), the total resistance RR satisfies the equation 1R=1R1+1R2\frac { 1 } { R } = \frac { 1 } { R _ { 1 } } + \frac { 1 } { R _ { 2 } } . <strong>When two resistors of resistances R _ { 1 } and R _ { 2 } are connected in parallel (see figure), the total resistance R satisfies the equation \frac { 1 } { R } = \frac { 1 } { R _ { 1 } } + \frac { 1 } { R _ { 2 } } . Find R _ { 1 } for a parallel circuit in which R _ { 2 } = 7 ohms and R must be at least 1 ohm. </strong> A) R _ { 1 } \leq 7 \text { ohms } B) R _ { 1 } < 7 \text { ohms } C) R _ { 1 } \geq \frac { 7 } { 6 } \text { ohms } D) R _ { 1 } > 7 \mathrm { ohms } E) R _ { 1 } = \frac { 7 } { 6 } \text { ohms } Find R1R _ { 1 } for a parallel circuit in which R2=7R _ { 2 } = 7 ohms and R must be at least 1 ohm.

A) R17 ohms R _ { 1 } \leq 7 \text { ohms }
B) R1<7 ohms R _ { 1 } < 7 \text { ohms }
C) R1R _ { 1 } \geq 76\frac { 7 } { 6 }  ohms \text { ohms }
D) R1>7ohmsR _ { 1 } > 7 \mathrm { ohms }
E) R1=R _ { 1 } = 76\frac { 7 } { 6 }  ohms \text { ohms }
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61
The graph of the function
f(x)=3xx24f ( x ) = \frac { 3 x } { x ^ { 2 } - 4 } is shown below.Determine the domain. <strong>The graph of the function f ( x ) = \frac { 3 x } { x ^ { 2 } - 4 } is shown below.Determine the domain. </strong> A)Domain: all real numbers except x = -2 and x = 2 B)Domain: all real numbers except x = 2 C)Domain: all real numbers except x = 0 D)Domain: all real numbers except x = 1 E)Domain: all real numbers except x = 4

A)Domain: all real numbers except x = -2 and x = 2
B)Domain: all real numbers except x = 2
C)Domain: all real numbers except x = 0
D)Domain: all real numbers except x = 1
E)Domain: all real numbers except x = 4
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62
Find the zeros (if any) of the rational function.
f(x)=18x8f ( x ) = 1 - \frac { 8 } { x - 8 }

A) 8
B)-1
C) -16
D)1
E) 16
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63
Determine the domain of the function f(x)=5(x2)4f ( x ) = \frac { 5 } { ( x - 2 ) ^ { 4 } } .

A)Domain: all real numbers except x = -5 and -2
B)Domain: all real numbers
C)Domain: all real numbers except x = -5 and 2
D)Domain: all real numbers except x = 2
E)Domain: all real numbers except x = 5 and 2
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64
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=25x2f ( x ) = \frac { 25 } { x ^ { 2 } }

A)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = 0
B) Domain: all real numbers x except x = 5Vertical asymptote: x = 0Horizontal asymptote: y = 0
C) Domain: all real numbers x except x = 25Vertical asymptote: x = 0Horizontal asymptote: y = 0
D) Domain: all real numbers xVertical asymptote: x = 0Horizontal asymptote: y = 0
E) Domain: all real numbers x except x = ±5Vertical asymptote: y = 0Horizontal asymptote: x = 0
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65
Determine the equations of the vertical and horizontal asymptotes of the graph of the function f(x)=5x2x24f ( x ) = \frac { 5 x ^ { 2 } } { x ^ { 2 } - 4 } .

A)horizontal: y = -2; vertical: x = 5
B)horizontal: x = 2 and x = -2; vertical: y = -5
C)horizontal: y = 5; vertical: x = 2 and x = -2
D)horizontal: x = -5; vertical: y = 2 and y = -2
E)horizontal: y = 5; vertical: x = 2
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66
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=9(x3)3f ( x ) = \frac { 9 } { ( x - 3 ) ^ { 3 } }

A)Domain: all real numbers xVertical asymptote: x = 0Horizontal asymptote: y = 0
B)Domain: all real numbers x except x = 9Vertical asymptote: x = 0Horizontal asymptote: y = 0
C)Domain: all real numbers x except x = 3Vertical asymptote: x = 0Horizontal asymptote: y = 9
D)Domain: all real numbers xVertical asymptote: x = 0Horizontal asymptote: y = 9
E)Domain: all real numbers x except x = 3Vertical asymptote: x = 3Horizontal asymptote: y = 0
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67
Find the domain of the function and identify any vertical and horizontal asymptotes. f(x)=5x2+8x2+x+9f ( x ) = \frac { 5 x ^ { 2 } + 8 } { x ^ { 2 } + x + 9 }

A)Domain: all real numbers x
Vertical asymptote: No vertical asymptoteHorizontal asymptote: y = 5
B)Domain: all real numbers except x = 0
Vertical asymptote: x = 0
Horizontal asymptote: y = -8
C)Domain: all real numbers x
Vertical asymptote: x = -5
Horizontal asymptote: y = 0
D)Domain: all real numbers except x = 5
Vertical asymptote: No vertical asymptote
Horizontal asymptote: No horizontal asymptote
E)Domain: all real numbers except x = 9
Vertical asymptote: x = 5
Horizontal asymptote: y = 8
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68
Find the domain of the function.
g(s)=3ss9g ( s ) = \frac { - 3 s } { s - 9 }

A)s = 9
B)all real numbers s \neq 9, s \neq 0
C) s = 9, s = 0
D)all real numbers s \neq 9
E) \varnothing
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69
Select the correct graph of the function f(x)=8x2f ( x ) = \frac { 8 } { x - 2 } .

A) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E)
B) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E)
C) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E)
D) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E)
E) <strong>Select the correct graph of the function f ( x ) = \frac { 8 } { x - 2 } . </strong> A) B) C) D) E)
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70
Find the zeros (if any) of the rational function.
f(x)=1+6x27f ( x ) = 1 + \frac { 6 } { x ^ { 2 } - 7 }

A)±7
B)±6
C)6
D)±1
E) 7
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71
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=2x2x+3f ( x ) = \frac { 2 x ^ { 2 } } { x + 3 }

A)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = -2
B)Domain: all real numbers x except x = -3Vertical asymptote: x = -3Horizontal asymptote: No horizontal asymptote
C)Domain: all real numbers x except x = 3Vertical asymptote: x = 3Horizontal asymptote: No horizontal asymptote
D)Domain: all real numbers x except x = 3Vertical asymptote: x = 3Horizontal asymptote: y = 2
E)Domain: all real numbers xVertical asymptote: x = -3Horizontal asymptote: y = 0
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72
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=x3x249f ( x ) = \frac { x ^ { 3 } } { x ^ { 2 } - 49 }

A)Domain: all real numbers x except x = 0Vertical asymptote: x = ±7Horizontal asymptote: No horizontal asymptote
B)Domain: all real numbers x except x = ±7Vertical asymptote: x = ±7Horizontal asymptote: No horizontal asymptote
C)Domain: all real numbers x except x = 7Vertical asymptote: x = 7Horizontal asymptote: y = 7
D)Domain: all real numbers xVertical asymptote: x = -7Horizontal asymptote: y = 0
E)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = -49
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73
Determine the zeros (if any) of the rational function g(x)=6+3x2+6g ( x ) = 6 + \frac { 3 } { x ^ { 2 } + 6 } .

A)x = -6, x = 6
B) x=6,x=6x = - \sqrt { 6 } , x = \sqrt { 6 }
C) x=12,x=12x = - \frac { 1 } { 2 } , x = \frac { 1 } { 2 }
D)x = -3
E)no zeros
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74
Find the domain of the function and identify any vertical and horizontal asymptotes.
f(x)=7+x7xf ( x ) = \frac { 7 + x } { 7 - x }

A)Domain: all real numbers x except x = 7Vertical asymptote: x = 7Horizontal asymptote: y = -1
B)Domain: all real numbers xVertical asymptote: x = -7Horizontal asymptote: y = 0
C)Domain: all real numbers x except x = 0Vertical asymptote: x = 0Horizontal asymptote: y = -1
D)Domain: all real numbers x except x = 7Vertical asymptote: x = 0Horizontal asymptote: y = -7
E)Domain: all real numbers x except x = -7Vertical asymptote: x = 0Horizontal asymptote: y = 7
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75
Find the zeros (if any) of the rational function.
g(x)=x225x+5g ( x ) = \frac { x ^ { 2 } - 25 } { x + 5 }

A)-25
B)±5
C)-5
D)25
E)5
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76
Select the correct graph of the function f(x)=6x+4f ( x ) = \frac { 6 } { x + 4 } .

A) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E)
B) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E)
C) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E)
D) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E)
E) <strong>Select the correct graph of the function f ( x ) = \frac { 6 } { x + 4 } . </strong> A) B) C) D) E)
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77
Determine the zeros (if any) of the rational function f(x)=x24x4f ( x ) = \frac { x ^ { 2 } - 4 } { x - 4 } .

A)x = -4, x = 4
B)no zeros
C)x = -3
D) x=23,x=23x = - \frac { 2 } { 3 } , x = \frac { 2 } { 3 }
E)x = -2, x = 2
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78
Select the correct graph of the function f(x)=x4x7f ( x ) = \frac { x - 4 } { x - 7 } .

A) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E)
B) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E)
C) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E)
D) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E)
E) <strong>Select the correct graph of the function f ( x ) = \frac { x - 4 } { x - 7 } . </strong> A) B) C) D) E)
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79
Find the zeros (if any) of the rational function.
f(x)=2+12x2+2f ( x ) = 2 + \frac { 12 } { x ^ { 2 } + 2 }

A)-2
B)2
C)8
D)-8
E)None
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80
Select the graph of the rational function f(x)=x+6x+7f ( x ) = - \frac { x + 6 } { x + 7 } .

A) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E)
B) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E)
C) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E)
D) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E)
E) <strong>Select the graph of the rational function f ( x ) = - \frac { x + 6 } { x + 7 } . </strong> A) B) C) D) E)
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