Elliptical
no because stars can orbit each other
False. The term is elliptical. Eclipse is what happens when planets and moons pass in front of one another or the sun.
The deviation of each planet's orbit from a circle is referred to as its eccentricity. It is a measure of how much the planet's orbit deviates from a perfect circle, with a value of 0 indicating a perfectly circular orbit and values closer to 1 indicating more elliptical orbits. Eccentricity influences the shape and characteristics of a planet's orbit, affecting factors such as its closest and farthest distances from the sun.
Each planet has one orbit that is just called the orbit of . . . .
If you mean the shape of the orbit, that's an ellipse.
This orbit is called an ellipse. An oval shape.
The shape of the orbit of each planet is an ellipse. An ellipse is a geometric shape that is like a flattened circle. The Sun is located at one of the foci of the ellipse, not at the center.
The shape of a planet's orbit is elliptical.
Elliptical
elliptical
no because stars can orbit each other
False. The term is elliptical. Eclipse is what happens when planets and moons pass in front of one another or the sun.
The deviation of each planet's orbit from a circle is referred to as its eccentricity. It is a measure of how much the planet's orbit deviates from a perfect circle, with a value of 0 indicating a perfectly circular orbit and values closer to 1 indicating more elliptical orbits. Eccentricity influences the shape and characteristics of a planet's orbit, affecting factors such as its closest and farthest distances from the sun.
An elipsis
An eliptical orbit. In theory a planet could also have a circular orbit, but no planet that we know of has a perfectly circular orbit, although some have a nearly circular orbit.
Each planet has one orbit that is just called the orbit of . . . .
It varies from planet to planet. But most planets including our own, orbit the star in an elliptical motion.