Yes but only just.
Gravity is a relationship between the mass of a planet and the distance from the centre.
In simplistic terms G=M/R Where G = gravity, M = mass and R = radius. It's a bit more complicated than that - but is a good approximation.
For example Saturn is about 9 times larger than the Earth but the gravity is only just above that of the Earth.
However, if you drilled down into the Earth, the closer you got to the centre the greater the gravity would be.
YES! The bigger or more dense the planet is, the higher the force of gravity.
No. The strength of gravity on a planet depends on its size and mass.
Gravity ("surface gravity")on Mercury is 0.38 that of Earth.
There is gravity on all planets. The strength of that gravity varies depending on the size and mass of each planet.
The larger the planet is, the more amount of gravity you will get. The smaller the planet is, the less amount of gravity you will get.
YES! The bigger or more dense the planet is, the higher the force of gravity.
No. The strength of gravity on a planet depends on its size and mass.
No. It is the other way around; gravity depends on mass.
Gravity ("surface gravity")on Mercury is 0.38 that of Earth.
The planet's depends on the distance of the planet from the sun
No. The strength of surface gravity on a planet depends on its size and mass.
The larger the mass of the planet, the greater the force of its gravity.
No. The surface gravity of a planet is a product of its size and mass. It has nothing to do with distance from the sun. However, a planet farther away from the sun will experience a weaker pull from the sun's gravity.
There is gravity on all planets. The strength of that gravity varies depending on the size and mass of each planet.
The distance between a planet and an object affects the gravitational force between them. That means the size of a planet affects the value of the "surface gravity" for that planet. The greater thedistance from the surface to the center of the planet, the smaller the gravity at the surface (for the same planet mass). An example is the fact that Mars and Mercury have almost exactly the same surface gravity. Mars has more mass than Mercury, but this is balancedby the fact that Mercury hasthe smaller radius.
It would depend on the mass of the planets. The surface gravity of a planet is directly proportional to its mass and inversely proportional to the square of its radius. If two planets have the same mass but different sizes, the smaller planet will have stronger gravity because the surface is closer to the center of mass. Conversely, if two planets are of the same size, the one with more mass will have stronger gravity. Since larger planets usually have more mass than smaller ones they usually have stronger gravity, though not always.
The larger the planet is, the more amount of gravity you will get. The smaller the planet is, the less amount of gravity you will get.