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Deck 9: Conics, Parametric Curves, and Polar Curves

ملء الشاشة (f)
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سؤال
Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.

A) 5 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y <div style=padding-top: 35px> = y
B) 5 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y <div style=padding-top: 35px> = 4y
C) 4 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y <div style=padding-top: 35px> = 5y
D) 3 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y <div style=padding-top: 35px> = 4y
E) <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y <div style=padding-top: 35px> = 3y
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سؤال
For the parabola <strong>For the parabola + 6x + 4y + 5 = 0, find the vertex, the focus, and the directrix.</strong> A) Vertex (3, 1), Focus (3, 2), Directrix y = 0 B) Vertex (3, 1), Focus (3, 0), Directrix y = 2 C) Vertex (-3, 1), Focus (-3, 2), Directrix y = 0 D) Vertex (-3, 1), Focus (-3, 0), Directrix y = 2 E) Vertex (-3, -1), Focus (-3, 0), Directrix y = 2 <div style=padding-top: 35px> + 6x + 4y + 5 = 0, find the vertex, the focus, and the directrix.

A) Vertex (3, 1), Focus (3, 2), Directrix y = 0
B) Vertex (3, 1), Focus (3, 0), Directrix y = 2
C) Vertex (-3, 1), Focus (-3, 2), Directrix y = 0
D) Vertex (-3, 1), Focus (-3, 0), Directrix y = 2
E) Vertex (-3, -1), Focus (-3, 0), Directrix y = 2
سؤال
Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.

A) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
B) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
C) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
D) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
E) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
سؤال
Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.

A) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 <div style=padding-top: 35px> = 12x
B) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 <div style=padding-top: 35px> = 12(x - 1)
C) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 <div style=padding-top: 35px> = 12(x + 1)
D) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 <div style=padding-top: 35px> = -12(x - 1)
E) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 <div style=padding-top: 35px> = 12x + 1
سؤال
Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.

A) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) <div style=padding-top: 35px> = 4 π\pi (1 - y)
B) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) <div style=padding-top: 35px> = 4( π\pi - y)
C) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) <div style=padding-top: 35px> = 4 π\pi ( π\pi - y)
D) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) <div style=padding-top: 35px> = 4 π\pi ( π\pi - y)
E) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) <div style=padding-top: 35px> = 4 π\pi ( π\pi - y)
سؤال
Find the centre, eccentricity, and foci of the ellipse <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> + <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> = 1.

A) Centre (1, -3); <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> ; foci (1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> , -3)
B) Centre (-1, 3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> ; foci (-1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> , 3)
C) Centre (1, 3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> ; foci (1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> , 3)
D) Centre (-1, -3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> ; foci (-1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> , -3)
E) Centre (1, -3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> ; foci (1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) <div style=padding-top: 35px> , -3)
سؤال
Find all values of the constant real number k so that the second degree equation <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 <div style=padding-top: 35px> represents a pair of lines.

A) k = -1, k = <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 <div style=padding-top: 35px>
B) k = 1, - <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 <div style=padding-top: 35px>
C) k = - <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 <div style=padding-top: 35px> , <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 <div style=padding-top: 35px>
D) - \infty < k < \infty
E) k \neq 0
سؤال
Find an equation of an ellipse containing the point (- <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> , <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> ) and with vertices (0, -3) and (0, 3).

A) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
B) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> - <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
C) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
D) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
E) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 <div style=padding-top: 35px> = 1
سؤال
For the hyperbola <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> - <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.

A) Centre (4, 1), Vertices (4 ± <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5
B) Centre (-4, -1), Vertices (-4 ± <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5
C) Centre (4, 1), Vertices (4 ±2 <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5
D) Centre (-4, 1), Vertices (-4 ±2 <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5
E) Centre (4, -1), Vertices (4 ± <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 <div style=padding-top: 35px> , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5
سؤال
The maximum distance of the Earth from the sun is 9.3 × <strong>The maximum distance of the Earth from the sun is 9.3 × kilometres. The minimum distance is kilometres. The sun is at one focus of the elliptical orbit. Find the distance from the sun to the other focus.</strong> A) 3.2 × 10<sup>6</sup> kilometres B) 4.8 × 10<sup>6</sup> kilometres C) 6.4 × 10<sup>6</sup> kilometres D) 1.6 × 10<sup>6</sup> kilometres E) 8.0 × 10<sup>6</sup> kilometres <div style=padding-top: 35px> kilometres. The minimum distance is <strong>The maximum distance of the Earth from the sun is 9.3 × kilometres. The minimum distance is kilometres. The sun is at one focus of the elliptical orbit. Find the distance from the sun to the other focus.</strong> A) 3.2 × 10<sup>6</sup> kilometres B) 4.8 × 10<sup>6</sup> kilometres C) 6.4 × 10<sup>6</sup> kilometres D) 1.6 × 10<sup>6</sup> kilometres E) 8.0 × 10<sup>6</sup> kilometres <div style=padding-top: 35px> kilometres. The sun is at one focus of the elliptical orbit. Find the distance from the sun to the other focus.

A) 3.2 × 106 kilometres
B) 4.8 × 106 kilometres
C) 6.4 × 106 kilometres
D) 1.6 × 106 kilometres
E) 8.0 × 106 kilometres
سؤال
To eliminate the xy-term from the general equation of a conic section, To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = .<div style=padding-top: 35px> , To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = .<div style=padding-top: 35px> , we rotate the coordinate axes about the origin through an To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = .<div style=padding-top: 35px> , where cot(2 θ\theta ) = To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = .<div style=padding-top: 35px> .
سؤال
Find the centre, the foci, and the asymptotes of the hyperbola 4 <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> - 9 <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> -16x - 54y = 101.

A) Centre (2, -3), Foci (2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> , -3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px>
B) Centre (-2, 3), Foci (-2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> , 3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px>
C) Centre (2, -3), Foci (2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> , -3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px>
D) Centre (2, 3), Foci (2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> , 3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px>
E) Centre (-2, 3), Foci (-2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> , 3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px> = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± <div style=padding-top: 35px>
سؤال
Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> .

A) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
B) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
C) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
D) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
E) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
سؤال
Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 4.

A) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
B) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
C) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
D) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
E) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 <div style=padding-top: 35px> = 1
سؤال
Find the angle at which the parabolas y2 = 4x + 4 and y2 = -6x + 9 intersect at each of their intersection points.

A) 90º at each intersection point
B) 120º at each intersection point
C) 60º at each intersection point
D) 75º at each intersection point
E) 50º at each intersection point
سؤال
Find the points on the hyperbola x2 - y2 = 1 nearest to the point (0, 1).

A) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px> , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px>
B) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px> , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px>
C) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px> , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px>
D) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px> , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px>
E) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px> , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , <div style=padding-top: 35px>
سؤال
A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.

A) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
A conic section is given by the equation 4x2 + 10xy + 4y2 = 36.Use rotation of coordinate axes through an appropriate acute angle θ\theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( θ\theta ) - v sin( θ\theta ) , y = u sin( θ\theta ) + v cos( θ\theta ). Then identify the conic section.

A) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> + <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> = 1, an ellipse
B) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> + <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> = 4, a circle
C) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> - <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> = 1, a hyperbola
D) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> + <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> = 1, an ellipse
E) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> - <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola <div style=padding-top: 35px> = 1, a hyperbola
سؤال
Find the equation to the ellipse for which (1, -1) is a focus, x - y = 3 is the corresponding directrix, and the eccentricity is 1/2.

A) 3x2 - 2xy + 3y2 - 2x + 2y - 1 = 0
B) 3x2 + 2xy + 3y2 - 2x + 2y - 1 = 0
C) 7x2 - 2xy + 7y2 - 10x + 10y + 7 = 0
D) 7x2 + 2xy + 7y2 - 10x + 10y + 7 = 0
E) 7x2 + 2xy + 7y2 - 5x + 5y - 2 = 0
سؤال
Find the equation of the parabola whose focus is (2, -1) and directrix is x + 2y -1 = 0.

A) 4x2 - 4xy + y2 -18x + 14y + 24 = 0
B) 5x2 - 4xy + y2 -18x + 14y + 24 = 0
C) x2 - 4xy + 4y2 -18x + 14y + 24 = 0
D) x2 - 4xy + 5y2 -18x + 14y + 24 = 0
E) 4x2 - 4xy + 4y2 -18x + 14y + 24 = 0
سؤال
Which of the following sets of parametric equations constitute a parametrization of the whole parabola y = x2?
<strong>Which of the following sets of parametric equations constitute a parametrization of the whole parabola y = x<sup>2</sup>? </strong> A) (a), (c), and (e) only B) (a) and (e) only C) (a), (b), and (c) only D) all of them E) none of them <div style=padding-top: 35px>

A) (a), (c), and (e) only
B) (a) and (e) only
C) (a), (b), and (c) only
D) all of them
E) none of them
سؤال
What do the parametric equations x = 7 cos(t) and y = 3 sin(t) describe?

A) ellipse
B) hyperbola
C) circle
D) parabola
E) line
سؤال
What do the parametric equations x = t2 + 3t and y = t + 4 describe?

A) parabola that opens to the right
B) parabola that opens to the left
C) ellipse
D) hyperbola
E) line
سؤال
A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> R.
A Cartesian equation of the curve C is given by:

A) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> = 1
B) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> + <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> = 1
C) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> =1
D) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> + <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> = 5
E) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 <div style=padding-top: 35px> = 5
سؤال
Find parametric equations of the plane curve C given by 4x2 + 9y2 - 8x -32 = 0.

A) x(t) = 1 + 2cos(t), y(t) = 3sin(t), t <strong>Find parametric equations of the plane curve C given by 4x<sup>2</sup> + 9y<sup>2</sup> - 8x -32 = 0.</strong> A) x(t) = 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] B) x(t) = - 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] C) x(t) = - 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] D) x(t) = 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] E) <div style=padding-top: 35px> [0 , 2 π\pi ]
B) x(t) = - 1 + 3cos(t), y(t) = 2sin(t), t11ee7b17_3372_5854_ae82_d19d2ea0c252_TB9661_11 [0 , 2 π\pi ]
C) x(t) = - 1 + 2cos(t), y(t) = 3sin(t), t11ee7b17_3372_5854_ae82_d19d2ea0c252_TB9661_11 [0 , 2 π\pi ]
D) x(t) = 1 + 3cos(t), y(t) = 2sin(t), t 11ee7b17_3372_5854_ae82_d19d2ea0c252_TB9661_11 [0 , 2 π\pi ]
E) <strong>Find parametric equations of the plane curve C given by 4x<sup>2</sup> + 9y<sup>2</sup> - 8x -32 = 0.</strong> A) x(t) = 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] B) x(t) = - 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] C) x(t) = - 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] D) x(t) = 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] E) <div style=padding-top: 35px>
سؤال
Find the Cartesian coordinates of points of intersection of the plane parametric curves Find the Cartesian coordinates of points of intersection of the plane parametric curves , and x = , y = -u - 1.<div style=padding-top: 35px> , Find the Cartesian coordinates of points of intersection of the plane parametric curves , and x = , y = -u - 1.<div style=padding-top: 35px> and x = Find the Cartesian coordinates of points of intersection of the plane parametric curves , and x = , y = -u - 1.<div style=padding-top: 35px> , y = -u - 1.
سؤال
A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> (- <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> , <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> ).Find the Cartesian equation of the curve C.

A) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> = 1, y \ge 1
B) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> = 1, y \ge 1
C) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> + <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> = 1, - \infty < y < \infty
D) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> = 5, -1 \le y \le 1
E) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 <div style=padding-top: 35px> = 1, y \le - 1
سؤال
The equations x(t) = <strong>The equations x(t) = , y(t) = , -1 \le t \le 1 are the parametric equations of</strong> A) the whole circle centred at (0 , 0) and is of radius 1 unit B) the left half of the circle centred at (0 , 0) and is of radius 1 unit C) the bottom half of the circle centred at (0 , 0) and is of radius 1 unit D) the top half of the circle centred at (0 , 0) and is of radius 1 unit E) the right half of the circle centred at (0 , 0) and is of radius 1 unit <div style=padding-top: 35px> , y(t) = <strong>The equations x(t) = , y(t) = , -1 \le t \le 1 are the parametric equations of</strong> A) the whole circle centred at (0 , 0) and is of radius 1 unit B) the left half of the circle centred at (0 , 0) and is of radius 1 unit C) the bottom half of the circle centred at (0 , 0) and is of radius 1 unit D) the top half of the circle centred at (0 , 0) and is of radius 1 unit E) the right half of the circle centred at (0 , 0) and is of radius 1 unit <div style=padding-top: 35px> , -1 \le t \le 1 are the parametric equations of

A) the whole circle centred at (0 , 0) and is of radius 1 unit
B) the left half of the circle centred at (0 , 0) and is of radius 1 unit
C) the bottom half of the circle centred at (0 , 0) and is of radius 1 unit
D) the top half of the circle centred at (0 , 0) and is of radius 1 unit
E) the right half of the circle centred at (0 , 0) and is of radius 1 unit
سؤال
Describe the curve x = 3 - cos(t), y = -2 + 2 sin(t).

A) ellipse, centre (3, -2) with major axis along the line x = 3
B) ellipse, centre (3, -2) with major axis along the line y = -2
C) hyperbola, centre (3, -2) with transverse axis along the line x = -3
D) hyperbola, centre (3, -2) with transverse axis along the line x = 3
E) ellipse, centre (-3, 2) with major axis along the line x = -3
سؤال
Parametrize the curve y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px> + 3x using its slope m as the parameter.

A) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px> , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px>
B) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px> , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px>
C) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px> , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px>
D) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px> , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px>
E) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px> , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = <div style=padding-top: 35px>
سؤال
Which of the following plane parametric curves is a parametrization of an ellipse centred at (4, -2)?

A) x = 3 - 4cos(t), y = 5 + 2sin(t), 0 \le t \le 2 π\pi
B) x = 3 + 4cos(t), y = 5 - 2sin(t), 0 \le t \le 2 π\pi
C) x = 4 + 3cos(t), y = -2 + 5sin(t), 0 \le t \le 2 π\pi
D) x = - 4 + 3cos(t), y = 2 + 5sin(t), 0 \le t \le 2 π\pi
E) x = 4 - 2cos(t), y = 4 - 2sin(t), 0 \le t \le 2 π\pi
سؤال
<div style=padding-top: 35px>
سؤال
Find g(t) so that x = -1 + 3 cos(t), y = g(t), 0 \le t \le 2 π\pi provides a counterclockwise parametrization of the circle <strong>Find g(t) so that x = -1 + 3 cos(t), y = g(t), 0 \le t \le 2 \pi provides a counterclockwise parametrization of the circle + + 2x - 4y = 4.</strong> A) -2 + sin(t) B) 2 - 3 sin(t) C) 2 + 3 sin(t) D) 3 - 2 sin(t) E) 3 + 2 sin(t) <div style=padding-top: 35px> + <strong>Find g(t) so that x = -1 + 3 cos(t), y = g(t), 0 \le t \le 2 \pi provides a counterclockwise parametrization of the circle + + 2x - 4y = 4.</strong> A) -2 + sin(t) B) 2 - 3 sin(t) C) 2 + 3 sin(t) D) 3 - 2 sin(t) E) 3 + 2 sin(t) <div style=padding-top: 35px> + 2x - 4y = 4.

A) -2 + sin(t)
B) 2 - 3 sin(t)
C) 2 + 3 sin(t)
D) 3 - 2 sin(t)
E) 3 + 2 sin(t)
سؤال
Which of the following best describes the parametric curve x = sec(t), y = <strong>Which of the following best describes the parametric curve x = sec(t), y = (t),- \le t \le ?</strong> A) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 B) the parabola y = x<sup>2</sup> - 1 C) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = 1 D) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = -1 E) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 in the first quadrant <div style=padding-top: 35px> (t),- <strong>Which of the following best describes the parametric curve x = sec(t), y = (t),- \le t \le ?</strong> A) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 B) the parabola y = x<sup>2</sup> - 1 C) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = 1 D) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = -1 E) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 in the first quadrant <div style=padding-top: 35px> \le t \le <strong>Which of the following best describes the parametric curve x = sec(t), y = (t),- \le t \le ?</strong> A) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 B) the parabola y = x<sup>2</sup> - 1 C) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = 1 D) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = -1 E) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 in the first quadrant <div style=padding-top: 35px> ?

A) part of the parabola y = x2 - 1 lying under the line y = 1
B) the parabola y = x2 - 1
C) part of the parabola y = x2 - 1 lying above the line y = 1
D) part of the parabola y = x2 - 1 lying above the line y = -1
E) part of the parabola y = x2 - 1 lying under the line y = 1 in the first quadrant
سؤال
Find the slope of the curve x = 6t + 3, y = 2 <strong>Find the slope of the curve x = 6t + 3, y = 2 - 7t when t = 5.</strong> A) 6 B) 3 C) D) E) 0 <div style=padding-top: 35px> - 7t when t = 5.

A) 6
B) 3
C) <strong>Find the slope of the curve x = 6t + 3, y = 2 - 7t when t = 5.</strong> A) 6 B) 3 C) D) E) 0 <div style=padding-top: 35px>
D) <strong>Find the slope of the curve x = 6t + 3, y = 2 - 7t when t = 5.</strong> A) 6 B) 3 C) D) E) 0 <div style=padding-top: 35px>
E) 0
سؤال
Find the equation of the tangent line to the curve at the given t.
X = cos 3t, y = 3 sin 5t at t = <strong>Find the equation of the tangent line to the curve at the given t. X = cos 3t, y = 3 sin 5t at t = .</strong> A) x + y = 2 B) y = - C) x = -1 D) x + y + 1 + = 0 E) x = 1 <div style=padding-top: 35px> .

A) x + y = 2
B) y = - <strong>Find the equation of the tangent line to the curve at the given t. X = cos 3t, y = 3 sin 5t at t = .</strong> A) x + y = 2 B) y = - C) x = -1 D) x + y + 1 + = 0 E) x = 1 <div style=padding-top: 35px>
C) x = -1
D) x + y + 1 + <strong>Find the equation of the tangent line to the curve at the given t. X = cos 3t, y = 3 sin 5t at t = .</strong> A) x + y = 2 B) y = - C) x = -1 D) x + y + 1 + = 0 E) x = 1 <div style=padding-top: 35px> = 0
E) x = 1
سؤال
Find the equation of the tangent line to the curve at the given t. x = <strong>Find the equation of the tangent line to the curve at the given t. x = , y = at t = 1.</strong> A) x + y = 3 B) 2x + y = 5 C) 2x - y = 3 D) x - y = 1 E) x + 2y = 3 <div style=padding-top: 35px> , y = <strong>Find the equation of the tangent line to the curve at the given t. x = , y = at t = 1.</strong> A) x + y = 3 B) 2x + y = 5 C) 2x - y = 3 D) x - y = 1 E) x + 2y = 3 <div style=padding-top: 35px> at t = 1.

A) x + y = 3
B) 2x + y = 5
C) 2x - y = 3
D) x - y = 1
E) x + 2y = 3
سؤال
Find the slope of the curve x = 5 cos t, y = 3 sin t at t = <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1 <div style=padding-top: 35px> .

A) <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1 <div style=padding-top: 35px>
B) - <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1 <div style=padding-top: 35px>
C) - <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1 <div style=padding-top: 35px>
D) <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1 <div style=padding-top: 35px>
E) 1
سؤال
Find the equation of the tangent line to the curve at the given t. x = 2 cot t, y = 2 <strong>Find the equation of the tangent line to the curve at the given t. x = 2 cot t, y = 2 t at t = </strong> A) x - 2y = 0 B) x + 2y = 4 C) 2x + y = 5 D) 2x - y = 3 E) x - 2y = 4 <div style=padding-top: 35px> t at t = <strong>Find the equation of the tangent line to the curve at the given t. x = 2 cot t, y = 2 t at t = </strong> A) x - 2y = 0 B) x + 2y = 4 C) 2x + y = 5 D) 2x - y = 3 E) x - 2y = 4 <div style=padding-top: 35px>

A) x - 2y = 0
B) x + 2y = 4
C) 2x + y = 5
D) 2x - y = 3
E) x - 2y = 4
سؤال
Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by at the point on the curve where t = -1.</strong> A) x + y = 0 B) 3x - y =0 C) y = 0 D) y = x E) y = -3x <div style=padding-top: 35px> at the point on the curve where t = -1.

A) x + y = 0
B) 3x - y =0
C) y = 0
D) y = <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by at the point on the curve where t = -1.</strong> A) x + y = 0 B) 3x - y =0 C) y = 0 D) y = x E) y = -3x <div style=padding-top: 35px> x
E) y = -3x
سؤال
Express <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> and <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> in terms of x and y for the circle x = a cos θ\theta
, y = a sin θ\theta
.

A) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px>
B) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px>
C) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px>
D) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px>
E) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px> = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - <div style=padding-top: 35px>
سؤال
Determine the points where the parametric curve x = <strong>Determine the points where the parametric curve x = - 3t, y = - 12t have horizontal and vertical tangents.</strong> A) horizontal tangents at (2, 11), (-2, -11) and vertical tangents at (2, -16), (-2, 16) B) horizontal tangent at (0, 0) C) vertical tangent at (0, 0) D) horizontal tangents at (2, -16), (-2, 16) and vertical tangents at (2, 11), (-2, -11) E) no horizontal or vertical tangents <div style=padding-top: 35px> - 3t, y = <strong>Determine the points where the parametric curve x = - 3t, y = - 12t have horizontal and vertical tangents.</strong> A) horizontal tangents at (2, 11), (-2, -11) and vertical tangents at (2, -16), (-2, 16) B) horizontal tangent at (0, 0) C) vertical tangent at (0, 0) D) horizontal tangents at (2, -16), (-2, 16) and vertical tangents at (2, 11), (-2, -11) E) no horizontal or vertical tangents <div style=padding-top: 35px> - 12t have horizontal and vertical tangents.

A) horizontal tangents at (2, 11), (-2, -11) and vertical tangents at (2, -16), (-2, 16)
B) horizontal tangent at (0, 0)
C) vertical tangent at (0, 0)
D) horizontal tangents at (2, -16), (-2, 16) and vertical tangents at (2, 11), (-2, -11)
E) no horizontal or vertical tangents
سؤال
Find equations of the three normal lines to the parabola given parametrically by the equations
x(t) = Find equations of the three normal lines to the parabola given parametrically by the equations x(t) = , y(t) = 2t, which pass through the point P (3, 0).<div style=padding-top: 35px> , y(t) = 2t, which pass through the point P (3, 0).
سؤال
Find <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) <div style=padding-top: 35px> at the highest point on the cycloid x = a θ\theta
- a sin θ\theta
, y = a - a cos θ\theta
.

A) - <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) <div style=padding-top: 35px>
B) - <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) <div style=padding-top: 35px>
C) <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) <div style=padding-top: 35px>
D) <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) <div style=padding-top: 35px>
E) <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) <div style=padding-top: 35px>
سؤال
Find the slope of the curve x = <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) <div style=padding-top: 35px> sin 2t, y = <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) <div style=padding-top: 35px> cos 3t at t = 0.

A) - <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) <div style=padding-top: 35px>
B) - <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) <div style=padding-top: 35px>
C) 0
D) <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) <div style=padding-top: 35px>
E) <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) <div style=padding-top: 35px>
سؤال
Find the coordinates of the highest point of the curve x = 6t, y = 6t - <strong>Find the coordinates of the highest point of the curve x = 6t, y = 6t - .</strong> A) (18, 9) B) (0, 0) C) (12, 6) D) (6, 5) E) (24, 8) <div style=padding-top: 35px> .

A) (18, 9)
B) (0, 0)
C) (12, 6)
D) (6, 5)
E) (24, 8)
سؤال
Find the slopes of two lines tangent to the parametric curve x = <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> + <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> - 6t + 1,y = <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> + t - 4 at the point <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> on the curve.

A) 2, -3
B) - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> , <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px>
C) -6, - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px>
D) <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> , - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px>
E) - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px> , <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , <div style=padding-top: 35px>
سؤال
Where does the curve x = 2 <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> - 5, y = <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> + t have a tangent line that is perpendicular to the line <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> ?

A) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> and (-3, 2)
B) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> and (3, -2)
C) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> and (3, -2)
D) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> and (-3, 2)
E) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) <div style=padding-top: 35px> and (-3, -2)
سؤال
Where is the curve x = ln t, y = et concave upward?

A) at all points on the curve
B) at all points corresponding to values of t satisfying t > 1
C) at all points corresponding to values of t satisfying 0 < t < 1
D) at all points corresponding to values of t satisfying 0 < t \le 1
E) nowhere
سؤال
Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) <div style=padding-top: 35px> .

A) <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) <div style=padding-top: 35px>
B) - <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) <div style=padding-top: 35px>
C) - <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) <div style=padding-top: 35px>
D) <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) <div style=padding-top: 35px>
E) <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) <div style=padding-top: 35px>
سؤال
Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = + 2t + 2, y(t) = 1 - 3 - 2 at the point on the curve where t = -1.</strong> A) x -3y -1 = 0 B) y =1 C) y = x + 1 D) 3x -y -3 = 0 E) y = 3x -7 <div style=padding-top: 35px> + 2t + 2, y(t) = 1 - 3 <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = + 2t + 2, y(t) = 1 - 3 - 2 at the point on the curve where t = -1.</strong> A) x -3y -1 = 0 B) y =1 C) y = x + 1 D) 3x -y -3 = 0 E) y = 3x -7 <div style=padding-top: 35px> - 2 <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = + 2t + 2, y(t) = 1 - 3 - 2 at the point on the curve where t = -1.</strong> A) x -3y -1 = 0 B) y =1 C) y = x + 1 D) 3x -y -3 = 0 E) y = 3x -7 <div style=padding-top: 35px> at the point on the curve where t = -1.

A) x -3y -1 = 0
B) y =1
C) y = x + 1
D) 3x -y -3 = 0
E) y = 3x -7
سؤال
At what values of t does the curve x = t - sin t, y = 1 - cos t have (a) a horizontal tangent, (b) a vertical tangent, and (c) no tangent?

A) (a) t = 2k π\pi , k is an integer; (b) t = (2k + 1) π\pi ; (c) nowhere
B) (a) t = k π\pi , k is an integer; (b) nowhere; (c) nowhere
C) (a) t = (2k + 1) π\pi , k is an integer; (b) t = 2k π\pi , k is an integer; (c) nowhere
D) (a) t = (2k + 1) π\pi , k is an integer; (b) nowhere; (c) t = 2k π\pi , k is an integer
E) (a) t = k π\pi , k is an integer; (b) t = 2k π\pi , k is an integer; (c) nowhere
سؤال
Find the tangent line(s) to the parametric curve given by x = <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> - 4 <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> , y= <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> at (0, 4).

A) y = 4 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> x
B) y = 4 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> x
C) y = 8 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> x
D) y = 8 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> x
E) y = 2 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x <div style=padding-top: 35px> x
سؤال
Determine the coordinates of the points where the curve x = Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent.<div style=padding-top: 35px> + 2t, y = 2 Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent.<div style=padding-top: 35px> + 7 has (a) a horizontal tangent and (b) a vertical tangent.
سؤال
Determine the coordinates of the points where the curve x = <strong>Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent.</strong> A) (a) (0, -9) (b) (±2, -6) B) (a) (-2, -9) (b) (-2, -6) C) (a) (2, -9) (b) (2, -6) D) (a) (0, -9) (b) (2, 6) E) (a) (2, 9) (b) (2, 6) <div style=padding-top: 35px> + 2t, y = 2 <strong>Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent.</strong> A) (a) (0, -9) (b) (±2, -6) B) (a) (-2, -9) (b) (-2, -6) C) (a) (2, -9) (b) (2, -6) D) (a) (0, -9) (b) (2, 6) E) (a) (2, 9) (b) (2, 6) <div style=padding-top: 35px> + 7 has (a) a horizontal tangent and (b) a vertical tangent.

A) (a) (0, -9) (b) (±2, -6)
B) (a) (-2, -9) (b) (-2, -6)
C) (a) (2, -9) (b) (2, -6)
D) (a) (0, -9) (b) (2, 6)
E) (a) (2, 9) (b) (2, 6)
سؤال
Find the arc length of x = u, y = <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units <div style=padding-top: 35px> , 0 \le u \le <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units <div style=padding-top: 35px> .

A) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units <div style=padding-top: 35px> units
B) 2 units
C) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units <div style=padding-top: 35px> units
D) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units <div style=padding-top: 35px> units
E) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units <div style=padding-top: 35px> units
سؤال
Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> to t = <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> .

A) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> units
B) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> units
C) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> units
D) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> units
E) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units <div style=padding-top: 35px> units
سؤال
Find the length of x = ln sin θ\theta , y = θ\theta , <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> \le θ\theta \le <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> .

A) ln (4 - <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> ) units
B) ln (3 + <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> ) units
C) ln (2 + <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> ) units
D) ln (1 + 2 <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> ) units
E) ln (1 - 3 <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units <div style=padding-top: 35px> ) units
سؤال
<strong> </strong> A) 10 units B) 15 units C) 20 units D) 25 units E) 16 units <div style=padding-top: 35px>

A) 10 units
B) 15 units
C) 20 units
D) 25 units
E) 16 units
سؤال
Find the arc length of the curve x = et sin t, y = et cos t, from t = - <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> to t = <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> .

A) <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> - 1) units
B) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> + 1) units
C) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> - 1) units
D) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> sinh <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> units
E) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> cosh <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <div style=padding-top: 35px> units
سؤال
Find the arc length of the curve x = <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> ln (1 + <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> ), y = <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> t, from t = 0 to t = 1.

A) ln (2 - <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> ) units
B) ln (3 - <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> ) units
C) ln ( <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> + 1) units
D) ln ( <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> - 1) units
E) ln ( <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units <div style=padding-top: 35px> ) units
سؤال
Find the length of one arch of the cycloid x = a( θ\theta - sin θ\theta ), y = a(1 - cos θ\theta ).

A) 8a units
B) 10a units
C) 12a units
D) 6a units
E) 4a units
سؤال
Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units <div style=padding-top: 35px> [0, 2 π\pi ] about the x-axis.

A) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units <div style=padding-top: 35px> square units
B) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units <div style=padding-top: 35px> square units
C) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units <div style=padding-top: 35px> square units
D) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units <div style=padding-top: 35px> square units
E) 64 π\pi square units
سؤال
Find the area of the surface generated by rotating the astroid x = a <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> t, y = a <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> t about <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> .

A) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
B) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
C) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
D) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
E) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
سؤال
Find the area of the surface generated by rotating x = <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> , y = <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> , 0 \le t \le 1 about the y-axis.

A) 4 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> - 8) square units
B) 4 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> + 8) square units
C) 2 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> - 8) square units
D) 2 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> + 8) square units
E) π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <div style=padding-top: 35px> - 8) square units
سؤال
Find the length of the curve x = <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> t, y = <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> , 0 \le t \le 1.

A) 1 + <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> + 1) units
B) <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> + <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> + 1) units
C) <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> - <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> + 1) units
D) 1 - <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> + 1) units
E) 1 + <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units <div style=padding-top: 35px> ) units
سؤال
Find the area of the surface generated by rotating x = <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> t, y = <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> , 0 \le t \le 1, about the x-axis.

A) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
B) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
C) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
D) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
E) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <div style=padding-top: 35px> square units
سؤال
Find the arc length of the curve x = Find the arc length of the curve x = , y = dx, 0 ≤ t ≤ ln(2).<div style=padding-top: 35px> , y = Find the arc length of the curve x = , y = dx, 0 ≤ t ≤ ln(2).<div style=padding-top: 35px> dx, 0 ≤ t ≤ ln(2).
سؤال
Find the arc length x = 2 cos θ\theta + cos 2 θ\theta + 1, y = 2 sin θ\theta + sin 2 θ\theta , for 0 \le θ\theta\le 2 π\pi .

A) 12 units
B) 14 units
C) 16 units
D) 18 units
E) 10 units
سؤال
Find the area of the region bounded by the ellipse x = 7 cos θ\theta
, y = 9 sin θ\theta .

A) 63 π\pi square units
B) 16 π\pi square units
C) 2 π\pi square units
D) 25 π\pi square units
E) 72 π\pi square units
سؤال
Find the area of the region bounded by the hypocycloid x = a <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> θ\theta
, y = a <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> θ\theta
.

A) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> square units
B) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> square units
C) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> square units
D) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> square units
E) π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units <div style=padding-top: 35px> square units
سؤال
Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).

A) 2 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units <div style=padding-top: 35px> square units
B) 3 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units <div style=padding-top: 35px> square units
C) 4 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units <div style=padding-top: 35px> square units
D) 6 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units <div style=padding-top: 35px> square units
E) 5 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units <div style=padding-top: 35px> square units
سؤال
Find the rectangular coordinates of the point with polar coordinates <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) <div style=padding-top: 35px> .

A) ( <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) <div style=padding-top: 35px> , 1)
B) (1, <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) <div style=padding-top: 35px> )
C) ( <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) <div style=padding-top: 35px> , 2)
D) (2, <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) <div style=padding-top: 35px> )
E) (3, 1)
سؤال
Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.

A) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
Find a rectangular equation equivalent to the polar equation θ\theta
= <strong>Find a rectangular equation equivalent to the polar equation \theta = .</strong> A) y = x B) y = x C) y = x D) y = 2x E) y = 3x <div style=padding-top: 35px> .

A) y = x
B) y = <strong>Find a rectangular equation equivalent to the polar equation \theta = .</strong> A) y = x B) y = x C) y = x D) y = 2x E) y = 3x <div style=padding-top: 35px> x
C) y = <strong>Find a rectangular equation equivalent to the polar equation \theta = .</strong> A) y = x B) y = x C) y = x D) y = 2x E) y = 3x <div style=padding-top: 35px> x
D) y = 2x
E) y = 3x
سؤال
Find a rectangular equation equivalent to the polar equation r = tan θ\theta
.

A) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px> = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px>
B) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px> = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px>
C) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px> = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px>
D) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px> = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px>
E) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px> = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = <div style=padding-top: 35px>
سؤال
The equation of a conic section in polar coordinates is given by r = The equation of a conic section in polar coordinates is given by r = .(i) Transform the equation of the conic section to rectangular coordinates (x , y).(ii) Identify the conic section.<div style=padding-top: 35px> .(i) Transform the equation of the conic section to rectangular coordinates (x , y).(ii) Identify the conic section.
سؤال
Convert x2 + y2 = xy to polar coordinates.

A) r2 = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> = <div style=padding-top: 35px>
B) r = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> = <div style=padding-top: 35px>
C) r = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> = <div style=padding-top: 35px>
D) r2 = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> = <div style=padding-top: 35px>
E) r2 = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> = <div style=padding-top: 35px>
سؤال
Describe the plane curve represented in polar coordinates (r , θ\theta ) by the equation r = 4 sin( θ\theta ) , θ\theta <strong>Describe the plane curve represented in polar coordinates (r , \theta ) by the equation r = 4 sin( \theta ) , \theta [0 , \theta ].</strong> A) a straight line through the origin of slope 4 B) a circle centred at (x , y) = (2 , 0) and is of radius 2 C) a circle centred at (x , y) = (0 , 2) and is of radius 2 D) a circle centred at (x , y) = (0 , 2) and is of radius 4 E) a circle centred at (x , y) = (2 , 0) and is of radius 4 <div style=padding-top: 35px> [0 , θ\theta ].

A) a straight line through the origin of slope 4
B) a circle centred at (x , y) = (2 , 0) and is of radius 2
C) a circle centred at (x , y) = (0 , 2) and is of radius 2
D) a circle centred at (x , y) = (0 , 2) and is of radius 4
E) a circle centred at (x , y) = (2 , 0) and is of radius 4
سؤال
Describe the graph of the polar equation r = 6(sin θ\theta + cos θ\theta ).

A) Straight line with intercepts (6, 0) and (0, 6)
B) Circle with centre at (3, 3) and radius 6
C) Circle with centre at (3, 3) and radius 3 <strong>Describe the graph of the polar equation r = 6(sin \theta + cos \theta ).</strong> A) Straight line with intercepts (6, 0) and (0, 6) B) Circle with centre at (3, 3) and radius 6 C) Circle with centre at (3, 3) and radius 3 D) Straight line with intercepts (3, 0) and (0, 3) E) Circle with centre at (3, 3) and radius <div style=padding-top: 35px>
D) Straight line with intercepts (3, 0) and (0, 3)
E) Circle with centre at (3, 3) and radius <strong>Describe the graph of the polar equation r = 6(sin \theta + cos \theta ).</strong> A) Straight line with intercepts (6, 0) and (0, 6) B) Circle with centre at (3, 3) and radius 6 C) Circle with centre at (3, 3) and radius 3 D) Straight line with intercepts (3, 0) and (0, 3) E) Circle with centre at (3, 3) and radius <div style=padding-top: 35px>
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Deck 9: Conics, Parametric Curves, and Polar Curves
1
Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.

A) 5 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y = y
B) 5 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y = 4y
C) 4 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y = 5y
D) 3 <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y = 4y
E) <strong>Find the equation of the parabola passing through the point (2, 5), having vertex at the origin and axis of symmetry along the y-axis.</strong> A) 5 = y B) 5 = 4y C) 4 = 5y D) 3 = 4y E) = 3y = 3y
5 5 = 4y = 4y
2
For the parabola <strong>For the parabola + 6x + 4y + 5 = 0, find the vertex, the focus, and the directrix.</strong> A) Vertex (3, 1), Focus (3, 2), Directrix y = 0 B) Vertex (3, 1), Focus (3, 0), Directrix y = 2 C) Vertex (-3, 1), Focus (-3, 2), Directrix y = 0 D) Vertex (-3, 1), Focus (-3, 0), Directrix y = 2 E) Vertex (-3, -1), Focus (-3, 0), Directrix y = 2 + 6x + 4y + 5 = 0, find the vertex, the focus, and the directrix.

A) Vertex (3, 1), Focus (3, 2), Directrix y = 0
B) Vertex (3, 1), Focus (3, 0), Directrix y = 2
C) Vertex (-3, 1), Focus (-3, 2), Directrix y = 0
D) Vertex (-3, 1), Focus (-3, 0), Directrix y = 2
E) Vertex (-3, -1), Focus (-3, 0), Directrix y = 2
Vertex (-3, 1), Focus (-3, 0), Directrix y = 2
3
Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.

A) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 = 1
B) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 = 1
C) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 = 1
D) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 = 1
E) <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse satisfying the given conditions: Foci (-3, 0) and (3, 0) and length of major axis 6.</strong> A) + = 1 B) + = 1 C) + = 1 D) + = 1 E) + = 1 = 1
+ = 1 + + = 1 = 1
4
Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.

A) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 = 12x
B) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 = 12(x - 1)
C) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 = 12(x + 1)
D) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 = -12(x - 1)
E) <strong>Find an equation of a parabola satisfying the given conditions Focus (4, 1) and directrixx = -2.</strong> A) = 12x B) = 12(x - 1) C) = 12(x + 1) D) = -12(x - 1) E) = 12x + 1 = 12x + 1
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Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.

A) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) = 4 π\pi (1 - y)
B) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) = 4( π\pi - y)
C) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) = 4 π\pi ( π\pi - y)
D) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) = 4 π\pi ( π\pi - y)
E) <strong>Find an equation of a parabola satisfying the given conditions: Focus (2, 0) and directrix y = 2?.</strong> A) = 4 \pi (1 - y) B) = 4( \pi - y) C) = 4 \pi ( \pi - y) D) = 4 \pi ( \pi - y) E) = 4 \pi ( \pi - y) = 4 π\pi ( π\pi - y)
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6
Find the centre, eccentricity, and foci of the ellipse <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) + <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) = 1.

A) Centre (1, -3); <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) ; foci (1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) , -3)
B) Centre (-1, 3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) ; foci (-1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) , 3)
C) Centre (1, 3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) ; foci (1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) , 3)
D) Centre (-1, -3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) ; foci (-1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) , -3)
E) Centre (1, -3); 11ee7b11_3aa8_6932_ae82_3b68ee6209d9_TB9661_11 = <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) ; foci (1 ± <strong>Find the centre, eccentricity, and foci of the ellipse + = 1.</strong> A) Centre (1, -3); = ; foci (1 ± , -3) B) Centre (-1, 3); = ; foci (-1 ± , 3) C) Centre (1, 3); = ; foci (1 ± , 3) D) Centre (-1, -3); = ; foci (-1 ± , -3) E) Centre (1, -3); = ; foci (1 ± , -3) , -3)
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Find all values of the constant real number k so that the second degree equation <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 represents a pair of lines.

A) k = -1, k = <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0
B) k = 1, - <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0
C) k = - <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0 , <strong>Find all values of the constant real number k so that the second degree equation represents a pair of lines.</strong> A) k = -1, k = B) k = 1, - C) k = - , D) - \infty < k < \infty E) k \neq 0
D) - \infty < k < \infty
E) k \neq 0
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Find an equation of an ellipse containing the point (- <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 , <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 ) and with vertices (0, -3) and (0, 3).

A) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 = 1
B) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 - <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 = 1
C) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 = 1
D) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 = 1
E) <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 + <strong>Find an equation of an ellipse containing the point (- , ) and with vertices (0, -3) and (0, 3).</strong> A) + = 1 B) - = 1 C) + = 1 D) + = 1 E) + = 1 = 1
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For the hyperbola <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 - <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.

A) Centre (4, 1), Vertices (4 ± <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5
B) Centre (-4, -1), Vertices (-4 ± <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5
C) Centre (4, 1), Vertices (4 ±2 <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5
D) Centre (-4, 1), Vertices (-4 ±2 <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5
E) Centre (4, -1), Vertices (4 ± <strong>For the hyperbola - = 8x - 2y - 13, find the centre, the vertices, the foci, and the asymptotes.</strong> A) Centre (4, 1), Vertices (4 ± , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 B) Centre (-4, -1), Vertices (-4 ± , -1), Foci (-4 ± 2, -1), Asymptotes x - y = -3 and x + y = -5 C) Centre (4, 1), Vertices (4 ±2 , 1), Foci (4 ± 2, 1), Asymptotes x - y = 3 and x + y = 5 D) Centre (-4, 1), Vertices (-4 ±2 , 1), Foci (-4 ± 2, 1), Asymptotes x - y = -3 and x + y = 5 E) Centre (4, -1), Vertices (4 ± , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5 , -1), Foci (4 ± 2, -1), Asymptotes x + y = 3 and x - y = 5
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The maximum distance of the Earth from the sun is 9.3 × <strong>The maximum distance of the Earth from the sun is 9.3 × kilometres. The minimum distance is kilometres. The sun is at one focus of the elliptical orbit. Find the distance from the sun to the other focus.</strong> A) 3.2 × 10<sup>6</sup> kilometres B) 4.8 × 10<sup>6</sup> kilometres C) 6.4 × 10<sup>6</sup> kilometres D) 1.6 × 10<sup>6</sup> kilometres E) 8.0 × 10<sup>6</sup> kilometres kilometres. The minimum distance is <strong>The maximum distance of the Earth from the sun is 9.3 × kilometres. The minimum distance is kilometres. The sun is at one focus of the elliptical orbit. Find the distance from the sun to the other focus.</strong> A) 3.2 × 10<sup>6</sup> kilometres B) 4.8 × 10<sup>6</sup> kilometres C) 6.4 × 10<sup>6</sup> kilometres D) 1.6 × 10<sup>6</sup> kilometres E) 8.0 × 10<sup>6</sup> kilometres kilometres. The sun is at one focus of the elliptical orbit. Find the distance from the sun to the other focus.

A) 3.2 × 106 kilometres
B) 4.8 × 106 kilometres
C) 6.4 × 106 kilometres
D) 1.6 × 106 kilometres
E) 8.0 × 106 kilometres
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To eliminate the xy-term from the general equation of a conic section, To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = . , To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = . , we rotate the coordinate axes about the origin through an To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = . , where cot(2 θ\theta ) = To eliminate the xy-term from the general equation of a conic section, , , we rotate the coordinate axes about the origin through an , where cot(2 \theta ) = . .
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Find the centre, the foci, and the asymptotes of the hyperbola 4 <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± - 9 <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± -16x - 54y = 101.

A) Centre (2, -3), Foci (2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± , -3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ±
B) Centre (-2, 3), Foci (-2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± , 3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ±
C) Centre (2, -3), Foci (2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± , -3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ±
D) Centre (2, 3), Foci (2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± , 3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ±
E) Centre (-2, 3), Foci (-2 ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± , 3), Asymptotes <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± = ± <strong>Find the centre, the foci, and the asymptotes of the hyperbola 4 - 9 -16x - 54y = 101.</strong> A) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± B) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ± C) Centre (2, -3), Foci (2 ± , -3), Asymptotes = ± D) Centre (2, 3), Foci (2 ± , 3), Asymptotes = ± E) Centre (-2, 3), Foci (-2 ± , 3), Asymptotes = ±
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Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 .

A) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
B) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
C) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
D) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
E) <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (3, 7) and (-3, 7) and = .</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
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14
Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 4.

A) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
B) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
C) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
D) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
E) <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 - <strong>Find an equation of a hyperbola with vertices (-1, 3) and (-1, 7) and = 4.</strong> A) - = 1 B) - = 1 C) - = 1 D) - = 1 E) - = 1 = 1
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15
Find the angle at which the parabolas y2 = 4x + 4 and y2 = -6x + 9 intersect at each of their intersection points.

A) 90º at each intersection point
B) 120º at each intersection point
C) 60º at each intersection point
D) 75º at each intersection point
E) 50º at each intersection point
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16
Find the points on the hyperbola x2 - y2 = 1 nearest to the point (0, 1).

A) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) ,
B) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) ,
C) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) ,
D) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) ,
E) <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) , , <strong>Find the points on the hyperbola x<sup>2</sup> - y<sup>2</sup> = 1 nearest to the point (0, 1).</strong> A) , B) , C) , D) , E) ,
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17
A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.

A) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E)
B) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E)
C) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E)
D) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E)
E) <strong>A circle passes through both foci of an ellipse and is tangent to the ellipse at two points. Find the eccentricity of the ellipse.</strong> A) B) C) D) E)
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18
A conic section is given by the equation 4x2 + 10xy + 4y2 = 36.Use rotation of coordinate axes through an appropriate acute angle θ\theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( θ\theta ) - v sin( θ\theta ) , y = u sin( θ\theta ) + v cos( θ\theta ). Then identify the conic section.

A) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola + <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola = 1, an ellipse
B) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola + <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola = 4, a circle
C) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola - <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola = 1, a hyperbola
D) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola + <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola = 1, an ellipse
E) <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola - <strong>A conic section is given by the equation 4x<sup>2</sup> + 10xy + 4y<sup>2</sup> = 36.Use rotation of coordinate axes through an appropriate acute angle \theta to find the new equation of the conic section in the uv-coordinate axes , where x = u cos( \theta ) - v sin( \theta ) , y = u sin( \theta ) + v cos( \theta ). Then identify the conic section.</strong> A) + = 1, an ellipse B) + = 4, a circle C) - = 1, a hyperbola D) + = 1, an ellipse E) - = 1, a hyperbola = 1, a hyperbola
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19
Find the equation to the ellipse for which (1, -1) is a focus, x - y = 3 is the corresponding directrix, and the eccentricity is 1/2.

A) 3x2 - 2xy + 3y2 - 2x + 2y - 1 = 0
B) 3x2 + 2xy + 3y2 - 2x + 2y - 1 = 0
C) 7x2 - 2xy + 7y2 - 10x + 10y + 7 = 0
D) 7x2 + 2xy + 7y2 - 10x + 10y + 7 = 0
E) 7x2 + 2xy + 7y2 - 5x + 5y - 2 = 0
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20
Find the equation of the parabola whose focus is (2, -1) and directrix is x + 2y -1 = 0.

A) 4x2 - 4xy + y2 -18x + 14y + 24 = 0
B) 5x2 - 4xy + y2 -18x + 14y + 24 = 0
C) x2 - 4xy + 4y2 -18x + 14y + 24 = 0
D) x2 - 4xy + 5y2 -18x + 14y + 24 = 0
E) 4x2 - 4xy + 4y2 -18x + 14y + 24 = 0
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21
Which of the following sets of parametric equations constitute a parametrization of the whole parabola y = x2?
<strong>Which of the following sets of parametric equations constitute a parametrization of the whole parabola y = x<sup>2</sup>? </strong> A) (a), (c), and (e) only B) (a) and (e) only C) (a), (b), and (c) only D) all of them E) none of them

A) (a), (c), and (e) only
B) (a) and (e) only
C) (a), (b), and (c) only
D) all of them
E) none of them
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22
What do the parametric equations x = 7 cos(t) and y = 3 sin(t) describe?

A) ellipse
B) hyperbola
C) circle
D) parabola
E) line
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23
What do the parametric equations x = t2 + 3t and y = t + 4 describe?

A) parabola that opens to the right
B) parabola that opens to the left
C) ellipse
D) hyperbola
E) line
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24
A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 R.
A Cartesian equation of the curve C is given by:

A) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 - <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 = 1
B) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 + <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 = 1
C) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 - <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 =1
D) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 + <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 = 5
E) <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 - <strong>A plane curve C is given parametrically by the functions x (t) = cosh(t) - 2, y(t) = sinh(t), t R. A Cartesian equation of the curve C is given by:</strong> A) - = 1 B) + = 1 C) - =1 D) + = 5 E) - = 5 = 5
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25
Find parametric equations of the plane curve C given by 4x2 + 9y2 - 8x -32 = 0.

A) x(t) = 1 + 2cos(t), y(t) = 3sin(t), t <strong>Find parametric equations of the plane curve C given by 4x<sup>2</sup> + 9y<sup>2</sup> - 8x -32 = 0.</strong> A) x(t) = 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] B) x(t) = - 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] C) x(t) = - 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] D) x(t) = 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] E) [0 , 2 π\pi ]
B) x(t) = - 1 + 3cos(t), y(t) = 2sin(t), t11ee7b17_3372_5854_ae82_d19d2ea0c252_TB9661_11 [0 , 2 π\pi ]
C) x(t) = - 1 + 2cos(t), y(t) = 3sin(t), t11ee7b17_3372_5854_ae82_d19d2ea0c252_TB9661_11 [0 , 2 π\pi ]
D) x(t) = 1 + 3cos(t), y(t) = 2sin(t), t 11ee7b17_3372_5854_ae82_d19d2ea0c252_TB9661_11 [0 , 2 π\pi ]
E) <strong>Find parametric equations of the plane curve C given by 4x<sup>2</sup> + 9y<sup>2</sup> - 8x -32 = 0.</strong> A) x(t) = 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] B) x(t) = - 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] C) x(t) = - 1 + 2cos(t), y(t) = 3sin(t), t [0 , 2 \pi ] D) x(t) = 1 + 3cos(t), y(t) = 2sin(t), t [0 , 2 \pi ] E)
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Find the Cartesian coordinates of points of intersection of the plane parametric curves Find the Cartesian coordinates of points of intersection of the plane parametric curves , and x = , y = -u - 1. , Find the Cartesian coordinates of points of intersection of the plane parametric curves , and x = , y = -u - 1. and x = Find the Cartesian coordinates of points of intersection of the plane parametric curves , and x = , y = -u - 1. , y = -u - 1.
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A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 (- <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 , <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 ).Find the Cartesian equation of the curve C.

A) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 = 1, y \ge 1
B) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 = 1, y \ge 1
C) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 + <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 = 1, - \infty < y < \infty
D) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 = 5, -1 \le y \le 1
E) <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 - <strong>A plane curve C is given parametrically by x = tan(t) - 2, y = sec(t), t (- , ).Find the Cartesian equation of the curve C.</strong> A) - = 1, y \ge 1 B) - = 1, y \ge 1 C) + = 1, - \infty < y < \infty D) - = 5, -1 \le y \le 1 E) - = 1, y \le - 1 = 1, y \le - 1
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The equations x(t) = <strong>The equations x(t) = , y(t) = , -1 \le t \le 1 are the parametric equations of</strong> A) the whole circle centred at (0 , 0) and is of radius 1 unit B) the left half of the circle centred at (0 , 0) and is of radius 1 unit C) the bottom half of the circle centred at (0 , 0) and is of radius 1 unit D) the top half of the circle centred at (0 , 0) and is of radius 1 unit E) the right half of the circle centred at (0 , 0) and is of radius 1 unit , y(t) = <strong>The equations x(t) = , y(t) = , -1 \le t \le 1 are the parametric equations of</strong> A) the whole circle centred at (0 , 0) and is of radius 1 unit B) the left half of the circle centred at (0 , 0) and is of radius 1 unit C) the bottom half of the circle centred at (0 , 0) and is of radius 1 unit D) the top half of the circle centred at (0 , 0) and is of radius 1 unit E) the right half of the circle centred at (0 , 0) and is of radius 1 unit , -1 \le t \le 1 are the parametric equations of

A) the whole circle centred at (0 , 0) and is of radius 1 unit
B) the left half of the circle centred at (0 , 0) and is of radius 1 unit
C) the bottom half of the circle centred at (0 , 0) and is of radius 1 unit
D) the top half of the circle centred at (0 , 0) and is of radius 1 unit
E) the right half of the circle centred at (0 , 0) and is of radius 1 unit
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29
Describe the curve x = 3 - cos(t), y = -2 + 2 sin(t).

A) ellipse, centre (3, -2) with major axis along the line x = 3
B) ellipse, centre (3, -2) with major axis along the line y = -2
C) hyperbola, centre (3, -2) with transverse axis along the line x = -3
D) hyperbola, centre (3, -2) with transverse axis along the line x = 3
E) ellipse, centre (-3, 2) with major axis along the line x = -3
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Parametrize the curve y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = + 3x using its slope m as the parameter.

A) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y =
B) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y =
C) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y =
D) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y =
E) x = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y = , y = <strong>Parametrize the curve y = + 3x using its slope m as the parameter.</strong> A) x = , y = B) x = , y = C) x = , y = D) x = , y = E) x = , y =
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31
Which of the following plane parametric curves is a parametrization of an ellipse centred at (4, -2)?

A) x = 3 - 4cos(t), y = 5 + 2sin(t), 0 \le t \le 2 π\pi
B) x = 3 + 4cos(t), y = 5 - 2sin(t), 0 \le t \le 2 π\pi
C) x = 4 + 3cos(t), y = -2 + 5sin(t), 0 \le t \le 2 π\pi
D) x = - 4 + 3cos(t), y = 2 + 5sin(t), 0 \le t \le 2 π\pi
E) x = 4 - 2cos(t), y = 4 - 2sin(t), 0 \le t \le 2 π\pi
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33
Find g(t) so that x = -1 + 3 cos(t), y = g(t), 0 \le t \le 2 π\pi provides a counterclockwise parametrization of the circle <strong>Find g(t) so that x = -1 + 3 cos(t), y = g(t), 0 \le t \le 2 \pi provides a counterclockwise parametrization of the circle + + 2x - 4y = 4.</strong> A) -2 + sin(t) B) 2 - 3 sin(t) C) 2 + 3 sin(t) D) 3 - 2 sin(t) E) 3 + 2 sin(t) + <strong>Find g(t) so that x = -1 + 3 cos(t), y = g(t), 0 \le t \le 2 \pi provides a counterclockwise parametrization of the circle + + 2x - 4y = 4.</strong> A) -2 + sin(t) B) 2 - 3 sin(t) C) 2 + 3 sin(t) D) 3 - 2 sin(t) E) 3 + 2 sin(t) + 2x - 4y = 4.

A) -2 + sin(t)
B) 2 - 3 sin(t)
C) 2 + 3 sin(t)
D) 3 - 2 sin(t)
E) 3 + 2 sin(t)
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Which of the following best describes the parametric curve x = sec(t), y = <strong>Which of the following best describes the parametric curve x = sec(t), y = (t),- \le t \le ?</strong> A) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 B) the parabola y = x<sup>2</sup> - 1 C) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = 1 D) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = -1 E) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 in the first quadrant (t),- <strong>Which of the following best describes the parametric curve x = sec(t), y = (t),- \le t \le ?</strong> A) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 B) the parabola y = x<sup>2</sup> - 1 C) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = 1 D) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = -1 E) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 in the first quadrant \le t \le <strong>Which of the following best describes the parametric curve x = sec(t), y = (t),- \le t \le ?</strong> A) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 B) the parabola y = x<sup>2</sup> - 1 C) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = 1 D) part of the parabola y = x<sup>2</sup> - 1 lying above the line y = -1 E) part of the parabola y = x<sup>2</sup> - 1 lying under the line y = 1 in the first quadrant ?

A) part of the parabola y = x2 - 1 lying under the line y = 1
B) the parabola y = x2 - 1
C) part of the parabola y = x2 - 1 lying above the line y = 1
D) part of the parabola y = x2 - 1 lying above the line y = -1
E) part of the parabola y = x2 - 1 lying under the line y = 1 in the first quadrant
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Find the slope of the curve x = 6t + 3, y = 2 <strong>Find the slope of the curve x = 6t + 3, y = 2 - 7t when t = 5.</strong> A) 6 B) 3 C) D) E) 0 - 7t when t = 5.

A) 6
B) 3
C) <strong>Find the slope of the curve x = 6t + 3, y = 2 - 7t when t = 5.</strong> A) 6 B) 3 C) D) E) 0
D) <strong>Find the slope of the curve x = 6t + 3, y = 2 - 7t when t = 5.</strong> A) 6 B) 3 C) D) E) 0
E) 0
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Find the equation of the tangent line to the curve at the given t.
X = cos 3t, y = 3 sin 5t at t = <strong>Find the equation of the tangent line to the curve at the given t. X = cos 3t, y = 3 sin 5t at t = .</strong> A) x + y = 2 B) y = - C) x = -1 D) x + y + 1 + = 0 E) x = 1 .

A) x + y = 2
B) y = - <strong>Find the equation of the tangent line to the curve at the given t. X = cos 3t, y = 3 sin 5t at t = .</strong> A) x + y = 2 B) y = - C) x = -1 D) x + y + 1 + = 0 E) x = 1
C) x = -1
D) x + y + 1 + <strong>Find the equation of the tangent line to the curve at the given t. X = cos 3t, y = 3 sin 5t at t = .</strong> A) x + y = 2 B) y = - C) x = -1 D) x + y + 1 + = 0 E) x = 1 = 0
E) x = 1
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Find the equation of the tangent line to the curve at the given t. x = <strong>Find the equation of the tangent line to the curve at the given t. x = , y = at t = 1.</strong> A) x + y = 3 B) 2x + y = 5 C) 2x - y = 3 D) x - y = 1 E) x + 2y = 3 , y = <strong>Find the equation of the tangent line to the curve at the given t. x = , y = at t = 1.</strong> A) x + y = 3 B) 2x + y = 5 C) 2x - y = 3 D) x - y = 1 E) x + 2y = 3 at t = 1.

A) x + y = 3
B) 2x + y = 5
C) 2x - y = 3
D) x - y = 1
E) x + 2y = 3
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Find the slope of the curve x = 5 cos t, y = 3 sin t at t = <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1 .

A) <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1
B) - <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1
C) - <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1
D) <strong>Find the slope of the curve x = 5 cos t, y = 3 sin t at t = .</strong> A) B) - C) - D) E) 1
E) 1
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Find the equation of the tangent line to the curve at the given t. x = 2 cot t, y = 2 <strong>Find the equation of the tangent line to the curve at the given t. x = 2 cot t, y = 2 t at t = </strong> A) x - 2y = 0 B) x + 2y = 4 C) 2x + y = 5 D) 2x - y = 3 E) x - 2y = 4 t at t = <strong>Find the equation of the tangent line to the curve at the given t. x = 2 cot t, y = 2 t at t = </strong> A) x - 2y = 0 B) x + 2y = 4 C) 2x + y = 5 D) 2x - y = 3 E) x - 2y = 4

A) x - 2y = 0
B) x + 2y = 4
C) 2x + y = 5
D) 2x - y = 3
E) x - 2y = 4
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Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by at the point on the curve where t = -1.</strong> A) x + y = 0 B) 3x - y =0 C) y = 0 D) y = x E) y = -3x at the point on the curve where t = -1.

A) x + y = 0
B) 3x - y =0
C) y = 0
D) y = <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by at the point on the curve where t = -1.</strong> A) x + y = 0 B) 3x - y =0 C) y = 0 D) y = x E) y = -3x x
E) y = -3x
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41
Express <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - and <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - in terms of x and y for the circle x = a cos θ\theta
, y = a sin θ\theta
.

A) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = -
B) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = -
C) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = -
D) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = -
E) <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - , <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = - = - <strong>Express and in terms of x and y for the circle x = a cos \theta , y = a sin \theta .</strong> A) = - , = - B) = , = C) = - , = - D) = , = - E) = , = -
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42
Determine the points where the parametric curve x = <strong>Determine the points where the parametric curve x = - 3t, y = - 12t have horizontal and vertical tangents.</strong> A) horizontal tangents at (2, 11), (-2, -11) and vertical tangents at (2, -16), (-2, 16) B) horizontal tangent at (0, 0) C) vertical tangent at (0, 0) D) horizontal tangents at (2, -16), (-2, 16) and vertical tangents at (2, 11), (-2, -11) E) no horizontal or vertical tangents - 3t, y = <strong>Determine the points where the parametric curve x = - 3t, y = - 12t have horizontal and vertical tangents.</strong> A) horizontal tangents at (2, 11), (-2, -11) and vertical tangents at (2, -16), (-2, 16) B) horizontal tangent at (0, 0) C) vertical tangent at (0, 0) D) horizontal tangents at (2, -16), (-2, 16) and vertical tangents at (2, 11), (-2, -11) E) no horizontal or vertical tangents - 12t have horizontal and vertical tangents.

A) horizontal tangents at (2, 11), (-2, -11) and vertical tangents at (2, -16), (-2, 16)
B) horizontal tangent at (0, 0)
C) vertical tangent at (0, 0)
D) horizontal tangents at (2, -16), (-2, 16) and vertical tangents at (2, 11), (-2, -11)
E) no horizontal or vertical tangents
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43
Find equations of the three normal lines to the parabola given parametrically by the equations
x(t) = Find equations of the three normal lines to the parabola given parametrically by the equations x(t) = , y(t) = 2t, which pass through the point P (3, 0). , y(t) = 2t, which pass through the point P (3, 0).
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44
Find <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E) at the highest point on the cycloid x = a θ\theta
- a sin θ\theta
, y = a - a cos θ\theta
.

A) - <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E)
B) - <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E)
C) <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E)
D) <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E)
E) <strong>Find at the highest point on the cycloid x = a \theta - a sin \theta , y = a - a cos \theta .</strong> A) - B) - C) D) E)
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45
Find the slope of the curve x = <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) sin 2t, y = <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E) cos 3t at t = 0.

A) - <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E)
B) - <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E)
C) 0
D) <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E)
E) <strong>Find the slope of the curve x = sin 2t, y = cos 3t at t = 0.</strong> A) - B) - C) 0 D) E)
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46
Find the coordinates of the highest point of the curve x = 6t, y = 6t - <strong>Find the coordinates of the highest point of the curve x = 6t, y = 6t - .</strong> A) (18, 9) B) (0, 0) C) (12, 6) D) (6, 5) E) (24, 8) .

A) (18, 9)
B) (0, 0)
C) (12, 6)
D) (6, 5)
E) (24, 8)
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47
Find the slopes of two lines tangent to the parametric curve x = <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , + <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , - 6t + 1,y = <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , + t - 4 at the point <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , on the curve.

A) 2, -3
B) - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , , <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - ,
C) -6, - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - ,
D) <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , , - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - ,
E) - <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - , , <strong>Find the slopes of two lines tangent to the parametric curve x = + - 6t + 1,y = + t - 4 at the point on the curve.</strong> A) 2, -3 B) - , C) -6, - D) , - E) - ,
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48
Where does the curve x = 2 <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) - 5, y = <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) + t have a tangent line that is perpendicular to the line <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) ?

A) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) and (-3, 2)
B) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) and (3, -2)
C) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) and (3, -2)
D) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) and (-3, 2)
E) <strong>Where does the curve x = 2 - 5, y = + t have a tangent line that is perpendicular to the line ?</strong> A) and (-3, 2) B) and (3, -2) C) and (3, -2) D) and (-3, 2) E) and (-3, -2) and (-3, -2)
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49
Where is the curve x = ln t, y = et concave upward?

A) at all points on the curve
B) at all points corresponding to values of t satisfying t > 1
C) at all points corresponding to values of t satisfying 0 < t < 1
D) at all points corresponding to values of t satisfying 0 < t \le 1
E) nowhere
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50
Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E) .

A) <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E)
B) - <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E)
C) - <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E)
D) <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E)
E) <strong>Find the slope of the curve x = 3 csc(t), y = 2 cot(t) at the point t = .</strong> A) B) - C) - D) E)
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51
Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = + 2t + 2, y(t) = 1 - 3 - 2 at the point on the curve where t = -1.</strong> A) x -3y -1 = 0 B) y =1 C) y = x + 1 D) 3x -y -3 = 0 E) y = 3x -7 + 2t + 2, y(t) = 1 - 3 <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = + 2t + 2, y(t) = 1 - 3 - 2 at the point on the curve where t = -1.</strong> A) x -3y -1 = 0 B) y =1 C) y = x + 1 D) 3x -y -3 = 0 E) y = 3x -7 - 2 <strong>Find the Cartesian equation of the straight line tangent to the plane curve given parametrically by the equations x(t) = + 2t + 2, y(t) = 1 - 3 - 2 at the point on the curve where t = -1.</strong> A) x -3y -1 = 0 B) y =1 C) y = x + 1 D) 3x -y -3 = 0 E) y = 3x -7 at the point on the curve where t = -1.

A) x -3y -1 = 0
B) y =1
C) y = x + 1
D) 3x -y -3 = 0
E) y = 3x -7
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52
At what values of t does the curve x = t - sin t, y = 1 - cos t have (a) a horizontal tangent, (b) a vertical tangent, and (c) no tangent?

A) (a) t = 2k π\pi , k is an integer; (b) t = (2k + 1) π\pi ; (c) nowhere
B) (a) t = k π\pi , k is an integer; (b) nowhere; (c) nowhere
C) (a) t = (2k + 1) π\pi , k is an integer; (b) t = 2k π\pi , k is an integer; (c) nowhere
D) (a) t = (2k + 1) π\pi , k is an integer; (b) nowhere; (c) t = 2k π\pi , k is an integer
E) (a) t = k π\pi , k is an integer; (b) t = 2k π\pi , k is an integer; (c) nowhere
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53
Find the tangent line(s) to the parametric curve given by x = <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x - 4 <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x , y= <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x at (0, 4).

A) y = 4 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x x
B) y = 4 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x x
C) y = 8 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x x
D) y = 8 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x x
E) y = 2 ± <strong>Find the tangent line(s) to the parametric curve given by x = - 4 , y= at (0, 4).</strong> A) y = 4 ± x B) y = 4 ± x C) y = 8 ± x D) y = 8 ± x E) y = 2 ± x x
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54
Determine the coordinates of the points where the curve x = Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent. + 2t, y = 2 Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent. + 7 has (a) a horizontal tangent and (b) a vertical tangent.
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55
Determine the coordinates of the points where the curve x = <strong>Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent.</strong> A) (a) (0, -9) (b) (±2, -6) B) (a) (-2, -9) (b) (-2, -6) C) (a) (2, -9) (b) (2, -6) D) (a) (0, -9) (b) (2, 6) E) (a) (2, 9) (b) (2, 6) + 2t, y = 2 <strong>Determine the coordinates of the points where the curve x = + 2t, y = 2 + 7 has (a) a horizontal tangent and (b) a vertical tangent.</strong> A) (a) (0, -9) (b) (±2, -6) B) (a) (-2, -9) (b) (-2, -6) C) (a) (2, -9) (b) (2, -6) D) (a) (0, -9) (b) (2, 6) E) (a) (2, 9) (b) (2, 6) + 7 has (a) a horizontal tangent and (b) a vertical tangent.

A) (a) (0, -9) (b) (±2, -6)
B) (a) (-2, -9) (b) (-2, -6)
C) (a) (2, -9) (b) (2, -6)
D) (a) (0, -9) (b) (2, 6)
E) (a) (2, 9) (b) (2, 6)
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56
Find the arc length of x = u, y = <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units , 0 \le u \le <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units .

A) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units units
B) 2 units
C) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units units
D) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units units
E) <strong>Find the arc length of x = u, y = , 0 \le u \le .</strong> A) units B) 2 units C) units D) units E) units units
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57
Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units to t = <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units .

A) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units units
B) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units units
C) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units units
D) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units units
E) <strong>Find the length of the curve x = cos t + sin t, y = sin t - cos t, from t = to t = .</strong> A) units B) units C) units D) units E) units units
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58
Find the length of x = ln sin θ\theta , y = θ\theta , <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units \le θ\theta \le <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units .

A) ln (4 - <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units ) units
B) ln (3 + <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units ) units
C) ln (2 + <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units ) units
D) ln (1 + 2 <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units ) units
E) ln (1 - 3 <strong>Find the length of x = ln sin \theta , y = \theta , \le \theta \le .</strong> A) ln (4 - ) units B) ln (3 + ) units C) ln (2 + ) units D) ln (1 + 2 ) units E) ln (1 - 3 ) units ) units
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59
<strong> </strong> A) 10 units B) 15 units C) 20 units D) 25 units E) 16 units

A) 10 units
B) 15 units
C) 20 units
D) 25 units
E) 16 units
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60
Find the arc length of the curve x = et sin t, y = et cos t, from t = - <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units to t = <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units .

A) <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units - 1) units
B) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units + 1) units
C) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units - 1) units
D) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units sinh <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units units
E) 2 <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units cosh <strong>Find the arc length of the curve x = e<sup>t</sup> sin t, y = e<sup>t</sup> cos t, from t = - to t = .</strong> A) - 1) units B) 2 + 1) units C) 2 - 1) units D) 2 sinh units E) 2 cosh units units
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61
Find the arc length of the curve x = <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units ln (1 + <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units ), y = <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units t, from t = 0 to t = 1.

A) ln (2 - <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units ) units
B) ln (3 - <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units ) units
C) ln ( <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units + 1) units
D) ln ( <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units - 1) units
E) ln ( <strong>Find the arc length of the curve x = ln (1 + ), y = t, from t = 0 to t = 1.</strong> A) ln (2 - ) units B) ln (3 - ) units C) ln ( + 1) units D) ln ( - 1) units E) ln ( ) units ) units
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62
Find the length of one arch of the cycloid x = a( θ\theta - sin θ\theta ), y = a(1 - cos θ\theta ).

A) 8a units
B) 10a units
C) 12a units
D) 6a units
E) 4a units
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63
Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units [0, 2 π\pi ] about the x-axis.

A) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units square units
B) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units square units
C) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units square units
D) <strong>Find the area of the surface generated by rotating x = t - sin t, y = 1 - cos t where t [0, 2 \pi ] about the x-axis.</strong> A) square units B) square units C) square units D) square units E) 64 \pi square units square units
E) 64 π\pi square units
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64
Find the area of the surface generated by rotating the astroid x = a <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units t, y = a <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units t about <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units .

A) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units square units
B) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units square units
C) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units square units
D) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units square units
E) <strong>Find the area of the surface generated by rotating the astroid x = a t, y = a t about .</strong> A) square units B) square units C) square units D) square units E) square units square units
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65
Find the area of the surface generated by rotating x = <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units , y = <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units , 0 \le t \le 1 about the y-axis.

A) 4 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units - 8) square units
B) 4 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units + 8) square units
C) 2 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units - 8) square units
D) 2 π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units + 8) square units
E) π\pi (5 <strong>Find the area of the surface generated by rotating x = , y = , 0 \le t \le 1 about the y-axis.</strong> A) 4 \pi (5 - 8) square units B) 4 \pi (5 + 8) square units C) 2 \pi (5 - 8) square units D) 2 \pi (5 + 8) square units E) \pi (5 - 8) square units - 8) square units
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66
Find the length of the curve x = <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units t, y = <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units , 0 \le t \le 1.

A) 1 + <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units + 1) units
B) <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units + <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units + 1) units
C) <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units - <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units + 1) units
D) 1 - <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units + 1) units
E) 1 + <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units ln( <strong>Find the length of the curve x = t, y = , 0 \le t \le 1.</strong> A) 1 + ln( + 1) units B) + ln( + 1) units C) - ln( + 1) units D) 1 - ln( + 1) units E) 1 + ln( ) units ) units
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67
Find the area of the surface generated by rotating x = <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units t, y = <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units , 0 \le t \le 1, about the x-axis.

A) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units square units
B) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units square units
C) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units square units
D) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units square units
E) <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units <strong>Find the area of the surface generated by rotating x = t, y = , 0 \le t \le 1, about the x-axis.</strong> A) square units B) square units C) square units D) square units E) square units square units
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68
Find the arc length of the curve x = Find the arc length of the curve x = , y = dx, 0 ≤ t ≤ ln(2). , y = Find the arc length of the curve x = , y = dx, 0 ≤ t ≤ ln(2). dx, 0 ≤ t ≤ ln(2).
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69
Find the arc length x = 2 cos θ\theta + cos 2 θ\theta + 1, y = 2 sin θ\theta + sin 2 θ\theta , for 0 \le θ\theta\le 2 π\pi .

A) 12 units
B) 14 units
C) 16 units
D) 18 units
E) 10 units
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70
Find the area of the region bounded by the ellipse x = 7 cos θ\theta
, y = 9 sin θ\theta .

A) 63 π\pi square units
B) 16 π\pi square units
C) 2 π\pi square units
D) 25 π\pi square units
E) 72 π\pi square units
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71
Find the area of the region bounded by the hypocycloid x = a <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units θ\theta
, y = a <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units θ\theta
.

A) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units square units
B) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units square units
C) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units square units
D) <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units square units
E) π\pi <strong>Find the area of the region bounded by the hypocycloid x = a \theta , y = a \theta .</strong> A) \pi square units B) \pi square units C) \pi square units D) \pi square units E) \pi square units square units
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72
Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).

A) 2 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units square units
B) 3 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units square units
C) 4 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units square units
D) 6 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units square units
E) 5 π\pi <strong>Determine the area above the x-axis and under one arch of the cycloid x = a(t - sin t), y = a(1 - cos t).</strong> A) 2 \pi square units B) 3 \pi square units C) 4 \pi square units D) 6 \pi square units E) 5 \pi square units square units
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73
Find the rectangular coordinates of the point with polar coordinates <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) .

A) ( <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) , 1)
B) (1, <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) )
C) ( <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) , 2)
D) (2, <strong>Find the rectangular coordinates of the point with polar coordinates .</strong> A) ( , 1) B) (1, ) C) ( , 2) D) (2, ) E) (3, 1) )
E) (3, 1)
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74
Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.

A) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E)
B) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E)
C) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E)
D) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E)
E) <strong>Convert the point with Cartesian coordinates (-1, -1) to polar coordinates.</strong> A) B) C) D) E)
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75
Find a rectangular equation equivalent to the polar equation θ\theta
= <strong>Find a rectangular equation equivalent to the polar equation \theta = .</strong> A) y = x B) y = x C) y = x D) y = 2x E) y = 3x .

A) y = x
B) y = <strong>Find a rectangular equation equivalent to the polar equation \theta = .</strong> A) y = x B) y = x C) y = x D) y = 2x E) y = 3x x
C) y = <strong>Find a rectangular equation equivalent to the polar equation \theta = .</strong> A) y = x B) y = x C) y = x D) y = 2x E) y = 3x x
D) y = 2x
E) y = 3x
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76
Find a rectangular equation equivalent to the polar equation r = tan θ\theta
.

A) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) =
B) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) =
C) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) =
D) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) =
E) <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) = = <strong>Find a rectangular equation equivalent to the polar equation r = tan \theta .</strong> A) = B) = C) = D) = E) =
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77
The equation of a conic section in polar coordinates is given by r = The equation of a conic section in polar coordinates is given by r = .(i) Transform the equation of the conic section to rectangular coordinates (x , y).(ii) Identify the conic section. .(i) Transform the equation of the conic section to rectangular coordinates (x , y).(ii) Identify the conic section.
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78
Convert x2 + y2 = xy to polar coordinates.

A) r2 = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> =
B) r = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> =
C) r = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> =
D) r2 = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> =
E) r2 = <strong>Convert x<sup>2</sup> + y<sup>2</sup> = xy to polar coordinates.</strong> A) r<sup>2</sup> = B) r = C) r = D) r<sup>2</sup> = E) r<sup>2</sup> =
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79
Describe the plane curve represented in polar coordinates (r , θ\theta ) by the equation r = 4 sin( θ\theta ) , θ\theta <strong>Describe the plane curve represented in polar coordinates (r , \theta ) by the equation r = 4 sin( \theta ) , \theta [0 , \theta ].</strong> A) a straight line through the origin of slope 4 B) a circle centred at (x , y) = (2 , 0) and is of radius 2 C) a circle centred at (x , y) = (0 , 2) and is of radius 2 D) a circle centred at (x , y) = (0 , 2) and is of radius 4 E) a circle centred at (x , y) = (2 , 0) and is of radius 4 [0 , θ\theta ].

A) a straight line through the origin of slope 4
B) a circle centred at (x , y) = (2 , 0) and is of radius 2
C) a circle centred at (x , y) = (0 , 2) and is of radius 2
D) a circle centred at (x , y) = (0 , 2) and is of radius 4
E) a circle centred at (x , y) = (2 , 0) and is of radius 4
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80
Describe the graph of the polar equation r = 6(sin θ\theta + cos θ\theta ).

A) Straight line with intercepts (6, 0) and (0, 6)
B) Circle with centre at (3, 3) and radius 6
C) Circle with centre at (3, 3) and radius 3 <strong>Describe the graph of the polar equation r = 6(sin \theta + cos \theta ).</strong> A) Straight line with intercepts (6, 0) and (0, 6) B) Circle with centre at (3, 3) and radius 6 C) Circle with centre at (3, 3) and radius 3 D) Straight line with intercepts (3, 0) and (0, 3) E) Circle with centre at (3, 3) and radius
D) Straight line with intercepts (3, 0) and (0, 3)
E) Circle with centre at (3, 3) and radius <strong>Describe the graph of the polar equation r = 6(sin \theta + cos \theta ).</strong> A) Straight line with intercepts (6, 0) and (0, 6) B) Circle with centre at (3, 3) and radius 6 C) Circle with centre at (3, 3) and radius 3 D) Straight line with intercepts (3, 0) and (0, 3) E) Circle with centre at (3, 3) and radius
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