No, the mass of a planet does not equal the size of that particular planet.
Venus is the planet closest in mass to Earth, with a mass about 81% that of Earth.
Venus is closest to the Earth in size and mass. Its diameter is around 95% of Earths, while its mass is around 81.5% of Earths.
It does not. Mass is independent of where an object is. Weight, however, will vary in direct proportion to the planet's gravity.
No. The strength of gravity on a planet depends on its size and mass.
The mass of the black hole would increase in proportion to the mass of the planet
Venus is the planet closest in mass to Earth, with a mass about 81% that of Earth.
Jupiter
Venus is closest to the Earth in size and mass. Its diameter is around 95% of Earths, while its mass is around 81.5% of Earths.
No. The planets vary greatly in both size and mass.
The size of a planet's orbit is primarily determined by its distance from the star it orbits, as well as the planet's mass and the characteristics of the star. The orbiting planet's velocity and gravitational interactions with other bodies in the system also play a role in determining the size of its orbit.
I don't think there is one.
The planet is medium in size. It have equal length and equal breathe.
It does not. Mass is independent of where an object is. Weight, however, will vary in direct proportion to the planet's gravity.
Jupiter is the largest planet in out solar system and the most massive.
No. The strength of gravity on a planet depends on its size and mass.
A more massive planet is attracted more by the Sun if other things like the distance are equal. The force of gravity on a planet is proportional to the mass of the planet and inversely proportional to the sare of the distance.
The mass of the black hole would increase in proportion to the mass of the planet