Despite the fact that Uranus has a mass 14.5 times Earth's mass, its surface gravity isless thanEarth's.
Jupiter and Neptune both have more "surface gravity" than Earth.
An example of a planet with a gravity 2.54 times that of Earth is Venus. Venus has a surface gravity of 0.91 g, where 1 g is the gravitational force on Earth. This higher gravity on Venus means objects would weigh 2.54 times more than on Earth.
The force of gravity pulls things towards Earth. Gravity is a fundamental force in the universe that causes objects with mass to be attracted to each other. On Earth, gravity keeps us anchored to the ground and influences the motion of everything on the planet.
A magnetic field holds atmosphere to the planet. Without a magnetosphere the solar wind from the sun will blow the atmosphere away. That is why our planet still has an atmosphere, we have the magnetic poles.
we r not in space well we are but we have gravity and earth is real
Earth (by definition has a gravity exerting a pull of 1g. Venus is almost the same as Earth but the pull of gravity there is 0.904g. So Earth has more gravity.
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
In our solar system, the planets Uranus and Neptune have about twice the gravity of Earth.
On Mars, there is low gravity, so there you could jump twice as high as you can on Earth. The acceleration due to gravity on mars is 3.71 m/s2, which is 0.379 times that of Earth. (The gravity on Earth is 2.64 times greater than the gravity on Mars.)
Well you would need to know the force of Gravity on the surface of Planet A to answer this. The equation to use would be 5 multiplied by the force of gravity on Planet A = the weight in kilograms. So if Gravity on planet A was twice that on Earth then it would weigh 10Kg and if it was 1/2 that on Earth it would weigh 2.5 kg.
No planet.
All of them do. There's no planet where the gravity is the same as on Earth.
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
That would depend on the planet's radius. The strength of gravity depends on both the mass of the object in question and the distance from its center of mass. If the planet in question had the same radius as Earth, then the person would weigh 200 lbs as gravity would be twice as strong. If the planet had the same density as Earth it would have 1.26 times Earth's radius and gravity would be 1.26 times as strong and the person would weigh 126 lbs. If the planet had about 1.41 times Earth's radius then that person's would weight 100 lbs.
False. Gravity on the moon is 1/6 that of Earth.
Pluto's gravity is 8% of Earth's.
Yes. At least, the gravity resulting from planet Earth.
The mass of the object would remain the same because mass is an intrinsic property of the object. However, the weight of the object would double on a planet with twice the gravity of Earth since weight is the force exerted on the object due to gravity, which is directly proportional to the acceleration due to gravity.