The mass
The acceleration of gravity, and therefore the weight of an object located there, at the place where Saturn's surface would be if it had one, is 13.91% greater than it is on or near the Earth's surface.
The acceleration of gravity, and therefore the weight of an object located there, at the place where Saturn's surface would be if it had one, is 13.91% greater than it is on or near the Earth's surface.
In the Solar System, that would be on Jupiter, on Neptune, or on the Sun. Outside the Solar System there are many other bodies with a greater surface gravity.
Well gravity would pull the body to the ground. The greater the surface area of the body the more air resistance there would be.
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.
The larger the mass of an object, the greater the force it will exert on other objects. But as the distance from that object becomes greater, the gravitational pull becomes smaller. For example, the sun has a larger mass than the earth, so gravity on the suns surface would be much greater than on earths surface. Also, as you get further and further away from the earth, the less you are influenced by its gravity.
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.
No. The gravity at Neptune's nominal "surface" is only about 14% greater than it is on Earth. If you had a platform you would be able to stand without much difficulty.
The greater the mass, the greater the force of gravity.
24.79 m/s2 or 2.528 times the gravity of Earth The gravity on Jupiter is greater than the gravity on Earth because Jupiter is more massive. Although Jupiter is a great deal larger in size, its surface gravity is just 2.4 times that of the surface gravity of Earth. This is because Jupiter is mostly made up of gases. If you weigh 100 pounds on Earth, you would weigh 214 pounds on Jupiter.
The acceleration of gravity at the surface of Mars is approximately 3.7 m/s2. Earth's acceleration is 9.8 m/s2 on average. The force that gravity would exert on an object is dependent on its mass.
It would be greater in proportion to the difference in mass. The force of gravity is proportional to the product of the 2 masses, and yours didn't change.