hyperbola centered at the origin of the xy-plane are shown below. Find the hyperbola's standard form...
The vertices and eccentricity of an ellipse centered at the origin of the xy-plane are given below. Find the ellipse's standard form equation in Cartesian coordinates Vertices: ( 070) Eccentricity: 0.1 The given ellipse has the equation (Type your answer in standard form)
Find an equation of the following curve, assuming the center is at the origin. Sketch a graph labeling the vertices, foci, asymptotes, and directrices. Use a graphing utility to check your work A hyperbola with vertices (+ 1,0) and eccentricity 3 The foci of the hyperbola are (Type an ordered pair. Type an exact answer. Use a comma to separate answers as needed.) The equations for the asymptotes of the hyperbola are y=+ (Type an exact answer.) Write the equations...
Sketch the graph of the following hyperbola. Specify the coordinates of the vertices and foci, and find the equations of the asymptotes. Use a graphing utility to check your work. y² x² 36 = 1 25 The vertices of the hyperbola arı (Type an ordered pair. Type an exact answer, using radicals as needed. Use a comma to separate answers as needed.) The foci of the hyperbola are (Type an ordered pair. Type an exact answer, using radicals as needed....
Type the standard form of the equation. Find the standard form of the equation of the ellipse and give the location of its foci. (Type an equation. Simplify your answer.) Ø Type the locations of the foci. Ø 3 (Type ordered pairs. Use a comma to separate answers. Type exact answers, using radicals as needed. Simplify your answers.) Enter your answer in each of the answer boxes.
Find the foci of the ellipse with the given equation. Then draw its graph. 7x^2 + 3y^2 = 21 The foci of the ellipse are (-2, 0), (2, 0). (Use a comma to separate answers. Type an ordered pair. Type an exact answer)
Find the foci of the ellipse with the given equation. Then draw its graph. 5x² + 3y2 = 15 The foci of the ellipse are (Use a comma to separate answers. Type an ordered pair. Type an exact answer.)
Write the standard form equation for a hyperbola with center at the origin, vertices at (0, 3) and (0, -3), and foci at (0, 7) and (0,-7) Preview syntax error: this is not an equation Enter an algebraic equation [more Get help: Video
write the standard form equation for a hyperbola with center at the origin, vertices at (3,0) and (-3,0) and foci at (4,0) and (-4,0)
Find the foci of the ellipse with the given equation. Then draw its graph. Choose the correct graph below. 4x² +9y2 = 36 O A. The foci of the ellipse are . (Use a comma to separate answers. Type an ordered pair. Type an exact answer.) O O Draw the graph. LITH 204 O O 20 L-20D 20
s. Find the standard form of the equation for a hyperbola with foci (5, -8) and (3 and vertices (4, -8) and (-2,-8). Sketch its graph. Find the standard form of the equation for a hyperbola with vertices at (-2,-5) and (-2, 7), and asymptote y x+4. Sketch its graph. 9.