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13.4E: Exercises
https://math.libretexts.org/Courses/Coastline_College/Math_C045%3A_Beginning_and_Intermediate_Algebra_(Tran)/13%3A_Conics/13.04%3A_Ellipses/13.4E%3A_Exercises
In the following exercises, find the equation of the ellipse shown in the graph. The closest the planet gets to the sun is approximately $10$ AU and the furthest is approximately $30$ AU. The clos...In the following exercises, find the equation of the ellipse shown in the graph. The closest the planet gets to the sun is approximately $10$ AU and the furthest is approximately $30$ AU. The closest the planet gets to the sun is approximately $10$ AU and the furthest is approximately $70$ AU. Letting the ellipse center at the origin and labeling the axes in AU, the orbit will look like the figure below.
22.4E: Exercises
https://math.libretexts.org/Courses/Las_Positas_College/Foundational_Mathematics/22%3A_Conics/22.04%3A_Ellipses/22.4E%3A_Exercises
In the following exercises, find the equation of the ellipse shown in the graph. The closest the planet gets to the sun is approximately $10$ AU and the furthest is approximately $30$ AU. The clos...In the following exercises, find the equation of the ellipse shown in the graph. The closest the planet gets to the sun is approximately $10$ AU and the furthest is approximately $30$ AU. The closest the planet gets to the sun is approximately $10$ AU and the furthest is approximately $70$ AU. Letting the ellipse center at the origin and labeling the axes in AU, the orbit will look like the figure below.

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