Mass does not change with gravity. Weight increases on BIGGER planets and decreases on smaller planets.
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.
Jovian planets have a much stronger gravitational force due to their larger mass.
It is estimated that planets can theoretically get up to about 80 times the mass of Jupiter, anything larger than that would form as a Brown Dwarf Star.
Planets have moons because matter is attracted by gravitational force to objects with a greater mass than them.That is why moons orbit planets and are never larger than their host planet.
It is more accurate to say that more massive planets have stronger gravity. If a planet had the same mass as Earth but a larger radius (i.e. it is less dense) surface gravity would be weaker, as the strength of gravity depends on both an objects mass and the distance from its center.
Mercury is smaller in diameter, but not in mass. If you include dwarf planets, than it is also larger in diameter than Eris and Pluto, however once again it is smaller in mass.
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.
A larger land mass smaller than a continent is usually referred to as a subcontinent. Subcontinents are smaller than continents but larger than individual countries or regions. Examples of subcontinents include the Indian subcontinent and the Arabian Peninsula.
Planets are larger and more massive than asteroids, but very nearly the same size and mass as planets.
yes. gravitational force will act more powerfully on larger mass drop while on smaller mass drop less gravity acts.
Mercury, Venus, Mars
Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.Well, this is not exact, but smaller atoms have about the same number (and mass) of neutrons and of protons. Heavier atoms have a larger percentage of their mass in neutrons.
No, there is not. Mars is smaller but has 2, Saturn is larger and has around 70.
Force accelerates stationary masses as acceleration a=f/m; theacceleration is inverse to the mass. The smaller the mass the larger the acceleration and the larger the mass the smaller the acceleration.
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.
no. Inertia is directly proportional to mass. So twice the mass, twice the inertia, etc. So, the larger the mass, the greater the inertia.
larger