Find an equation for the conic section with the given properties. The ellipse with vertices V1(−3,...

Find the coordinates of the center, the foci, and the vertices of the ellipse with equation...

Find the coordinates of the center, the foci, and the vertices of the ellipse with equation 25(?−3)2 +9(?+7)2 =225

1. Write the equation for the following conic sections in standard form: (a) An ellipse centered...

1. Write the equation for the following conic sections in standard form: (a) An ellipse centered at (2,-5) that passes through (2,-3) with foci at (4,-5) and (0,-5). (b) A hyperbola with vertices at (1,0) and (1, 4) and foci at (1,-1) and (1, 5).

1) Write a polar equation of a conic with the focus at the origin and the...

1) Write a polar equation of a conic with the focus at the origin and the given data: The curve is a hyperbola with eccentricity 7/4 and directrix y=6. 2a) Determine the equation of a conic that satisfies the given conditions: vertices: (-1,2), (7,2) foci: (-2,2), (8,2) b) Identify the conic: circle parabola, ellipse, hyperbola. c) Sketch the conic. d) If the conic is a hyperbola, determine the equations of the asymptotes.

Rewrite the equation below so that it is in standard form. State the type of conic...

Rewrite the equation below so that it is in standard form. State the type of conic section represented and identify all of the conic section’s relevant characteristics (center, vertices, co-vertices, foci, equations of asymptotes, directrix, and radius). Provide exact answers. Then graph the conic section. 3?2- 2y2 -8 =12x- 4y   

Find an equation for the ellipse that has its center at the origin and satisfies the...

Find an equation for the ellipse that has its center at the origin and satisfies the given conditions. Vertices V(±6, 0),    foci F(±2, 0) Find an equation for the ellipse that has its center at the origin and satisfies the given conditions. eccentricity 3 5 ,    vertices V(0, ±5)

Find the standard form of the equation of the hyperbola with the given characteristics. Vertices: (−1,...

Find the standard form of the equation of the hyperbola with the given characteristics. Vertices: (−1, 3), (7, 3); foci: (−2, 3), (8, 3)

Find the standard form of the equation of the ellipse satisfying the given conditions. ​Foci: (0,-5),...

Find the standard form of the equation of the ellipse satisfying the given conditions. ​Foci: (0,-5), (0,5) ; ​vertices: (0,-6), (0,6)

For each equation, decide which type of conic section each equation represents (parabola, ellipse, hyperbola, circle)....

For each equation, decide which type of conic section each equation represents (parabola, ellipse, hyperbola, circle). If it is none of them, state that as well. Please show your work. 1. 9x^2 -25y -54x +100y = 244 2. 7x^2- y -70x = -177 3. x^2 +y^2 -4x -2y -11= 0

Find the equation of an ellipse, in standard form, satisfying the given conditions: Vertices: (-8.2, 4)...

Find the equation of an ellipse, in standard form, satisfying the given conditions: Vertices: (-8.2, 4) and (3.2, 4); with the length of minor axis equal to 8. Answers must be exact values and not approximations.

A conic section is given by the equation 4x2 + 10xy + 4y2 = 36. Use...

A conic section is given by the equation 4x2 + 10xy + 4y2 = 36. Use rotation of coordinate axes through an appropriate acute angle θ to find the new equation of the conic section in the uv-coordinate axes , where x = u cos(θ) - v sin(θ) , y = u sin(θ) + v cos(θ). Then identify the conic section.