Question 1 of 20  0.0/ 5.0 Points 
Halley's comet has an elliptical orbit with the sun at one focus. Its orbit shown below is given approximately by In the formula, r is measured in astronomical units. (One astronomical unit is the average distance from Earth to the sun, approximately 93 million miles.) Find the distance from Halley's comet to the sun at its greatest distance from the sun. Round to the nearest hundredth of an astronomical unit and the nearest million miles.  A. 12.13 astronomical units; 1128 million miles    B. 91.54 astronomical units; 8513 million miles    C. 5.69 astronomical units; 529 million miles    D. 6.06 astronomical units; 564 million miles  

Question 2 of 20  0.0/ 5.0 Points 
Use the center, vertices, and asymptotes to graph the hyperbola. (x  1) ^{2}  9(y  2) ^{2}= 9 
Question 3 of 20  0.0/ 5.0 Points 
Find the standard form of the equation of the ellipse and give the location of its foci.  A. _{}^{+} _{}= 1 foci at (_{} , 0) and ( _{} , 0)    B. _{}^{} _{}= 1 foci at ( _{} , 0) and ( _{} , 0)    C. _{}^{+} _{} = 1 foci at (_{} , 0) and ( _{} , 0)    D. _{}^{+} _{} = 1 foci at (7, 0) and ( 7, 0)  

Question 4 of 20  0.0/ 5.0 Points 
Rewrite the equation in a rotated x'y'system without an x'y' term. Express the equation involving x' and y' in the standard form of a conic section. 31x ^{2} + 10 _{}xy + 21y ^{2}144 = 0  A. x^{'2} = 4_{} y'    B. y^{'2} = 4_{}x'    C. _{}^{+} _{}= 1    D. _{}^{+} _{} = 1  

Question 5 of 20  0.0/ 5.0 Points 
Find the standard form of the equation of the ellipse satisfying the given conditions. Foci: (0, 2), (0, 2); yintercepts: 5 and 5  A. _{}^{+} _{} = 1    B. _{}^{+} _{} = 1    C. _{}^{+} _{}= 1    D. _{}^{+} _{} = 1  

Question 6 of 20  0.0/ 5.0 Points 
Find the vertices and locate the foci for the hyperbola whose equation is given. 49x ^{2}  100y ^{2}= 4900  A. vertices: ( 10, 0), ( 10, 0) foci: (_{} , 0), ( _{} , 0)    B. vertices: ( 10, 0), ( 10, 0) foci: (_{} , 0), (_{} , 0)    C. vertices: ( 7, 0), ( 7, 0) foci: (_{} , 0), (_{} , 0)    D. vertices: (0, 10), (0, 10) foci: (0, _{} ), (0, _{})  

Question 7 of 20  5.0/ 5.0 Points 
Write the equation in terms of a rotated x'y'system using θ, the angle of rotation. Write the equation involving x' and y' in standard form. xy +16 = 0; θ = 45°  A. ^{+} _{} = 1    B. y^{'2} = 32x'    C. _{}^{+} _{}= 1    D. _{} ^{} _{}= 1  

Question 8 of 20  0.0/ 5.0 Points 
Write the appropriate rotation formulas so that in a rotated system the equation has no x'y'term. 10x ^{2}  4xy + 6y ^{2} 8x + 8y = 0  A. x = y'; y = x'    B. x = x'  y'; y = x' + y'    C. x = _{} (x'  y'); y = _{} (x' + y')    D. x = _{}x'  _{} y'; y = _{} x' + _{} y'  

Question 9 of 20  0.0/ 5.0 Points 
Find the location of the center, vertices, and foci for the hyperbola described by the equation. _{} _{}= 1  A. Center: ( 4, 1); Vertices: ( 10, 1) and ( 2, 1); Foci: and (    B. Center: ( 4, 1); Vertices: ( 9, 1) and ( 3, 1); Foci: ( 3 + _{}, 2) and ( 2 + _{} , 2)    C. Center: ( 4, 1); Vertices: ( 10, 1) and ( 2, 1); Foci: ( 4  _{} , 1) and ( 4 + _{}, 1)    D. Center: ( 4, 1); Vertices: ( 2, 1) and ( 10, 1); Foci: and  

Question 10 of 20  0.0/ 5.0 Points 
Sketch the plane curve represented by the given parametric equations. Then use interval notation to give the relation's domain and range. x = 2t, y = t ^{2}+ t + 3  A. Domain: (∞, ∞); Range: 1x, ∞)    B. Domain: (∞, ∞); Range: [ 2.75, ∞)    C. Domain: (∞, ∞); Range: [ 3, ∞)    D. Domain: (∞, ∞); Range: [ 2.75, ∞)  

Question 11 of 20  0.0/ 5.0 Points 

Question 12 of 20  0.0/ 5.0 Points 
Graph the ellipse. 16(x  1) ^{2} + 9(y + 2) ^{2}= 144 
Question 13 of 20  0.0/ 5.0 Points 
Is the relation a function? y = x ^{2}+ 12x + 31 
Question 14 of 20  5.0/ 5.0 Points 
Determine the direction in which the parabola opens, and the vertex. y ^{2}= + 6x + 14  A. Opens upward; ( 3, 5)    B. Opens upward; ( 3, 5)    C. Opens to the right; ( 5, 3)    D. Opens to the right; ( 5, 3)  

Question 15 of 20  0.0/ 5.0 Points 
Match the equation to the graph. x ^{2}= 7y 
Question 16 of 20  0.0/ 5.0 Points 

Question 17 of 20  0.0/ 5.0 Points 
Convert the equation to the standard form for a hyperbola by completing the square on x and y. x ^{2}  y ^{2}+ 6x  4y + 4 = 0  A. (x + 3)^{2} + (y + 2)^{2} = 1    B. _{}^{} _{} = 1    C. (x + 3)^{2}  (y + 2)^{2} = 1    D. (y + 3)^{2} (x + 2)^{2} = 1  

Question 18 of 20  0.0/ 5.0 Points 
Eliminate the parameter t. Find a rectangular equation for the plane curve defined by the parametric equations. x = 6 cos t, y = 6 sin t; 0 ≤ t ≤ 2π  A. x^{2}  y^{2} = 6; 6 ≤ x ≤ 6    B. x^{2}  y^{2} = 36; 6 ≤ x ≤ 6    C. x^{2} + y^{2} = 6; 6 ≤ x ≤ 6    D. x^{2} + y^{2} = 36; 6 ≤ x ≤ 6  

Question 19 of 20  5.0/ 5.0 Points 
Convert the equation to the standard form for a parabola by completing the square on x or y as appropriate. y ^{2}+ 2y  2x  3 = 0  A. (y + 1)^{2} = 2(x + 2)    B. (y  1)^{2} = 2(x + 2)    C. (y + 1)^{2} = 2(x  2)    D. (y  1)^{2} = 2(x + 2)  

Question 20 of 20  0.0/ 5.0 Points 
Convert the equation to the standard form for a hyperbola by completing the square on x and y. y ^{2 } 25x ^{2}+ 4y + 50x  46 = 0  A.  (x  2)^{2} = 1    B.  (y  1)^{2} = 1    C. (x  1)^{2}  = 1    D.  (x  1)^{2} = 1  
