The 'surface' acceleration of gravity on Neptune is 11.15 m/s2 .
That's about 14% greater than on the Earth's surface.
If you weigh 200 pounds on Earth, then at the depth in Neptune's gaseous mantle
where the pressure is equal to Earth's sea-level atmospheric pressure, you'd weigh
about 228 pounds.
Surprisingly the gravity at Neptune's nominal "surface" is only 14% greater than it is on Earth. This is because, while Neptune is 17 times more massive than Earth, it is also nearly 4 times Earth's diameter, putting the "surface" farther from the center of mass.
Neptune has much more mass than Earth with a mass of 17 times the mass of the Earth. Also, the diameter of Neptune is 3.8 times the diameter of Earth. This brings the gravity on Neptune up to 114% of the gravity of Earth.
Neptune's gravity is 1.14 times the gravity on Earth. Therefore, someone who weighed 90 pounds on Earth would weigh 102.6 pounds on Neptune.
The surface gravity of Neptune is thought to be about 1.14 times the gravity on Earth, so 100 kg on Earth would weigh about 114 kg on Neptune--except that Neptune is a gas planet and has no solid surface on which the 100kg rock could be weighed.
Yes, the planet Neptune's gravitational pull is greater than Earth's, because the force exerted is proportional to mass, and Neptune's mass is over 17 times the mass of Earth. Because gravity evidences an inverse square law, we feel the gravitational pull on Earth much more strongly. On the surface (roughly at the outer limit of the atmosphere) of Neptune, however, because of the size of the planet and the distance from its center of gravity, you would only weigh slightly more than on Earth's surface, somewhere around 13% more.
No. Neptune is far more massive than Earth, but its lower density also gives it a much greater radius. As a result, gravity at Neptune's "surface" (defined as where pressure is 1 bar) is about 14% greater than it is on Earth.
Everything has gravity. Some examples include: every planet every star every moon every fish every speck of dust every drop of beer every shred of lint
Surprisingly the gravity at Neptune's nominal "surface" is only 14% greater than it is on Earth. This is because, while Neptune is 17 times more massive than Earth, it is also nearly 4 times Earth's diameter, putting the "surface" farther from the center of mass.
Neptune has much more mass than Earth with a mass of 17 times the mass of the Earth. Also, the diameter of Neptune is 3.8 times the diameter of Earth. This brings the gravity on Neptune up to 114% of the gravity of Earth.
Neptune's gravity is 1.14 times the gravity on Earth. Therefore, someone who weighed 90 pounds on Earth would weigh 102.6 pounds on Neptune.
The surface gravity of Neptune is thought to be about 1.14 times the gravity on Earth, so 100 kg on Earth would weigh about 114 kg on Neptune--except that Neptune is a gas planet and has no solid surface on which the 100kg rock could be weighed.
It doesn't Earth has more gravity.
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.
Jupiters gravity is much more than on the earth!
Yes, the planet Neptune's gravitational pull is greater than Earth's, because the force exerted is proportional to mass, and Neptune's mass is over 17 times the mass of Earth. Because gravity evidences an inverse square law, we feel the gravitational pull on Earth much more strongly. On the surface (roughly at the outer limit of the atmosphere) of Neptune, however, because of the size of the planet and the distance from its center of gravity, you would only weigh slightly more than on Earth's surface, somewhere around 13% more.
Earth has a much greater mass than Pluto does, and therefore has stronger gravity.
Neptune has 17 times the mass of Earth, but it is also larger, and gravity diminishes the farther you are from the center of gravity. So, if it had a solid surface, Neptune's surface gravity would only be slightly higher than Earth's (14% greater or 1.14 G). The gravitational acceleration at the point where its atmospheric pressure is equal to Earth's at sea level is 11.15 meters per second squared.The pull of gravity on the surface a planet or moon depends on two things:The mass of the planet or moon.How far its surface is from the center of gravity.The related links include a good website that shows you the comparison between the pull of gravity (how much you would weigh) on the surface of all the planets.