the verteces of an ellipse are V(0+/-3) and the foci are F(0,+/-2) find its equation.

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 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

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)

Find the equation of the ellipse with foci at (-4,8) and (-4,-6), and the length of...

Find the equation of the ellipse with foci at (-4,8) and (-4,-6), and the length of the major axes is 18. Graph the equation.

Find the hyperbolic equation 8) Foci F(±4, 0) and asymptotes y = ± [x√(14) / √(2)]...

Find the hyperbolic equation 8) Foci F(±4, 0) and asymptotes y = ± [x√(14) / √(2)] 9) Foci F(0, ±√(19)) and asymptotes y = ± [2x√(3) / √(7)] 10) Foci F(±11, 0) and asymptotes y = ± [2x√(10) / 9]

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

Find an equation for the conic section with the given properties. The ellipse with vertices V1(−3, −2) and V2(−3, 8) and foci F1(−3, −1) and F2(−3, 7)

Identify the following as the equation on a parabola, ellipse, or hyperbola: x^2-16y^2+64y-208=0 a) state what...

Identify the following as the equation on a parabola, ellipse, or hyperbola: x^2-16y^2+64y-208=0 a) state what it is b) depending on what it is, find the direction, coordinates of the center, vertex or vertices, foci, and the equation of asymptotes.

1. Find an equation for the hyperbola described. Graph the equation. Foci: (3,4) and (3,10) Vertex:...

1. Find an equation for the hyperbola described. Graph the equation. Foci: (3,4) and (3,10) Vertex: (3,8) 2. Find an equation for the ellipse. Graph the equation. Center at (1,1); focus at (1,9); contains the point (5,1)

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).

Ecuation of an ellipse with foci (2,2) and (2,-4) and latus rectum of ten units per...

Ecuation of an ellipse with foci (2,2) and (2,-4) and latus rectum of ten units per ecuation