The only planet in that category is the Earth, the planet most people live on. How does the orbit affect life? without the orbit there is no life on Earth, so it's fundamental really. The orbit keeps our temperature within narrow band so that life can exist and flourish. Without an orbit the Earth would travel off into outer space and the temperature would quickly descend below -200 degrees everywhere.
No, the presence of Cassini did not cause Saturn's orbit to change. Cassini's own orbit around Saturn was carefully planned to avoid influencing the planet's motion. The spacecraft's gravity was too insignificant to affect Saturn's massive orbit.
Neptune
no because stars can orbit each other
Venus is the planet with the closest orbit to that of Earth.
A planet orbits a star. A moon orbits a planet or dwarf planet.
its seasons
Planet's orbit :)
The mass of a satellite does not affect its orbit. The orbit of a satellite is determined by its speed and the gravitational pull of the object it is orbiting around, such as a planet. The mass of the satellite itself does not play a significant role in determining its orbit.
The magnitude of a planet's velocity affects the shape and size of its orbit. A higher velocity can cause a planet to move in a more elongated elliptical orbit, while a lower velocity can result in a more circular orbit. The velocity also influences the planet's escape velocity, which determines if it can break free from its orbit.
No, the presence of Cassini did not cause Saturn's orbit to change. Cassini's own orbit around Saturn was carefully planned to avoid influencing the planet's motion. The spacecraft's gravity was too insignificant to affect Saturn's massive orbit.
the closer the smaller orbit (a year is one complete orbit) so the year is smaller
Comets don't orbit a planet, they orbit the sun.
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
its the earth were their is life..... the neptune and mars for me.....
Neptune
The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit.
The size of a planet does not directly impact the eccentricity of its orbit. The eccentricity of a planet's orbit is primarily influenced by gravitational forces from other nearby celestial bodies and the planet's initial conditions during its formation. However, the mass of a planet can affect its gravitational interaction with other objects in its vicinity, which in turn may influence its orbit eccentricity.