Multiple Choice
Identify the
choice that best completes the statement or answers the question.
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1.
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Graph the equation  .
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2.
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Write the standard form of the equation of the circle with the center at  that has a radius of 6.
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3.
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Write the standard form of the equation of the circle with the center at  that passes through the point  .
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4.
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Identify the center and radius of the circle  . a. | center: 
radius: 9 | b. | center: 
radius: 9 | c. | center: 
radius:
81 | d. | center: 
radius: 9 | e. | center: 
radius: 81 |
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5.
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Identify the center and radius of the circle  .
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6.
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Identify the center and radius of the circle  . a. | center: 
radius:  | b. | center: 
radius: 4 | c. | center: 
radius: 2 | d. | center: 
radius:
1 | e. | center: 
radius:  |
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7.
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Graph the equation  .
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8.
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Write the standard form of the equation of the parabola with focus  and its vertex at the origin.
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9.
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Write the standard form of the equation of the parabola with focus  and its vertex at  .
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10.
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Graph the function  .
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11.
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Write the standard form of the equation of the ellipse centered at the
origin. Vertices:  Co-vertices: 
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12.
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Write the standard form of the equation of the ellipse centered at the origin,
having a horizontal major axis of  units and a minor axis of 
units.
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13.
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Write the standard form of the equation of the ellipse. 
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14.
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Identify the vertices and center of the ellipse  .
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15.
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Identify the vertices and center of the ellipse. 
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16.
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Identify the center and vertices of the hyperbola. 
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17.
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Identify the center and vertices of the hyperbola. 
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18.
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Sketch the graph of the equation. 
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19.
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Solve the system by the method of substitution.  a. |  | b. |  | c. |  | d. |  | e. | no solution exists |
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20.
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Solve the system by the method of elimination.  a. | ( , 4), (– ,
4) | b. | ( ,6), (– ,
6) | c. | ( ,– 4), (– ,– 4) | d. | ( ,– 6), (– ,– 6) | e. | no solution
exists |
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