depends on the planet.
It dose not matter how small the planet is, what makes them orbit slower is how far away the planet is from the sun.
mars is the 4th planet from the sun and it does orbit
The planet at 72 AU from the sun is Sedna, a trans-Neptunian object in the outer region of the solar system. Sedna has an extremely elongated orbit that takes it very far from the sun at its most distant point.
Uranus is the seventh planet in our Solar System. It is in orbit around the Sun.
Venus is 0.723332 AU (semi-major axis) from the Sun.
It dose not matter how small the planet is, what makes them orbit slower is how far away the planet is from the sun.
A planet typically has a more regular orbit, staying closer to the same distance from the sun. A comet's orbit will be more elliptical, going very far away and then coming really close.
Comets don't orbit a planet, they orbit the sun.
mars is the 4th planet from the sun and it does orbit
A planet's orbital speed changes, depending on how far it is from the Sun. The closer a planet is to the Sun, the stronger the Sun's gravitational pull on it, and the faster the planet moves. The farther it is from the Sun, the weaker the Sun's gravitational pull, and the slower it moves in its orbit.
No, Venus does not orbit a planet. It orbits a star, which is our Sun. It can not orbit a planet , if it did it would be a moon
The plane with the smallest orbit is Mercury, and the planet with the largest orbit is Neptune.
Uranus is the seventh planet in our Solar System. It is in orbit around the Sun.
The planet at 72 AU from the sun is Sedna, a trans-Neptunian object in the outer region of the solar system. Sedna has an extremely elongated orbit that takes it very far from the sun at its most distant point.
Venus is 0.723332 AU (semi-major axis) from the Sun.
A planet's farthest point from the sun in its orbit is called aphelion. This is when the planet is at its greatest distance from the sun.
Planets orbit the Sun in an elliptical path. This path is determined by the gravitational pull of the Sun on the planet, causing it to move in an elliptical orbit. The orbit is maintained due to a balance between the planet's inertia and the gravitational force of the Sun.