Question 1

Find a polar equation for the ellipse with its focus at the pole and vertices   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

11eaa595_6418_fa16_a696_6323b01557b5_TB4584_11_TB4584_11

Question 2

Find a polar equation for the parabola with its focus at the pole and vertex   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

Since the focus is at the pole, its polar coordinates are (0,0). The vertex of the parabola is given as (11e, 0). This means that the distance from the focus to the vertex is given by the parameter e. Also, since the parabola is symmetric about the y-axis, we can write the equation as r = a(1 + cosθ), where a is the distance from the focus to the directrix. From the definition of a parabola, we have a = e, which gives us r = e(1 + cosθ). Substituting the value of e from the coordinates of the vertex, we get the polar equation as r = 11e(1 + cosθ). Simplifying, we get r = 11(1 + cosθ). Converting to rectangular coordinates, we get y = 11 cosθ, which is the equation of a vertical parabola with vertex at (0,0) and axis of symmetry along the y-axis.

Question 3

Identify the conic for the polar equation   when   .&#10;A) hyperbola&#10;B) parabola&#10;C) ellipse

Accepted Answer

hyperbola

Question 4

Identify the graph for the polar equation   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Identify the graph for the polar equation...

Question 5

Pluto moves in an elliptical orbit with the sun at one of the foci. The length of half of the major axis is kilometers, and the eccentricity is 0.2488. Find the perihelion distance of Pluto from the sun. Round your answer to the nearest kilometers.

A) 8,873,174,401 kilometers
B) 7,375,412,800 kilometers
C) 4,436,587,201 kilometers
D) 4,436,587,200 kilometers
E) 8,873,174,399 kilometers

Accepted Answer

The answer of Pluto moves in an elliptical orbit with...

Question 6

Identify the graph for the polar equation   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The polar equation 11eaa595_6411_59a2_a696_9b633430c66e_TB4584_11_TB4584_11 represents a circle centered at the origin with radius 11. Therefore, the graph should be a circle. Option D is the only choice that depicts a circle, so it is the correct answer.

Question 7

Find a polar equation for the ellipse with its focus at the pole, eccentricity   , and directrix   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

Since the focus is at the pole, we know that the polar equation will have the form $r = \frac{ed}{1-e\cos	heta}$, where $e$ is the eccentricity and $d$ is the distance from the pole to the directrix. Plugging in the given values, we get $r=\frac{11}{1-\frac{1}{11}\cos	heta}$ or $r=\frac{11}{\frac{10}{11}-\cos	heta}$. This can be simplified by multiplying the top and bottom by the conjugate of the denominator, which gives $r=\frac{11(\frac{10}{11} + \cos 	heta)}{1- \cos^2	heta} = \boxed{11eaa595\_6417\_c185\_a696\_e901b5f8a231\_TB4584\_11\_TB4584\_11}$.

Question 8

Find the distance from the pole to the directrix for the conic   .&#10;A)  &#10;B) 14&#10;C)  &#10;D) 42&#10;E) 7

Accepted Answer

The answer of Find the distance from the pole to...

Question 9

Find a polar equation for the hyperbola with its focus at the pole, eccentricity   , and directrix   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find a polar equation for the hyperbola...

Question 10

Find the eccentricity of the polar equation   .&#10;A) 78&#10;B)  &#10;C) 26&#10;D) 13&#10;E)

Accepted Answer

The general form of a polar equation is r = e/(1+cosθ) where e is the eccentricity. Comparing the given equation with the general form, we get e = 11eaa595_6413_f0c6_a696_bde4cd26295c_TB4584_11_TB4584_11. Thus, the answer is choice B.

Question 11

Find a polar equation for the parabola with its focus at the pole, eccentricity e = 1, and directrix   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find a polar equation for the parabola...

Question 12

Find the distance from the pole to the directrix for the conic   .&#10;A)  &#10;B)  &#10;C) 30&#10;D)  &#10;E) 62

Accepted Answer

The answer of Find the distance from the pole to...

Question 13

Find a polar equation for the hyperbola with its focus at the pole and vertices   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find a polar equation for the hyperbola...

Question 14

Find the distance from the pole to the directrix for the conic   .&#10;A)  &#10;B) 32&#10;C) 16&#10;D)  &#10;E) 8

Accepted Answer

The answer of Find the distance from the pole to...

Question 15

Identify the graph for the polar equation   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Identify the graph for the polar equation...

Question 16

Find the eccentricity of the polar equation   .&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Find the eccentricity of the polar equation...

Question 17

Find the eccentricity of the polar equation   .&#10;A) 28&#10;B) 14&#10;C)  &#10;D)  &#10;E) 7

Accepted Answer

The answer of Find the eccentricity of the polar equation...

Question 18

Find the eccentricity and distance from the pole to the directrix of the conic. Then sketch and identify the graph. Use a graphing utility to confirm your results.  &#10;A) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is an ellipse.  &#10;B) eccentricity: 3&#10;Distance from pole to directrix:  &#10;The graph is an ellipse.  &#10;C) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is an ellipse.  &#10;D) eccentricity: 3&#10;Distance from pole to directrix:  &#10;The graph is a hyperbola.  &#10;E) eccentricity: 3&#10;Distance from pole to directrix:  &#10;The graph is a hyperbola.

Accepted Answer

The answer of Find the eccentricity and distance from the...

Question 19

Find the eccentricity and distance from the pole to the directrix of the conic. Then sketch and identify the graph. Use a graphing utility to confirm your results.  &#10;A) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is an ellipse.  &#10;B) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is a hyperbola.  &#10;C) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is a hyperbola.  &#10;D) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is an ellipse.  &#10;E) eccentricity:  &#10;Distance from pole to directrix:  &#10;The graph is an ellipse.

Accepted Answer

The answer of Find the eccentricity and distance from the...

Deck 10: Section 6: Conics, Parametric Equations, and Polar Coordinates