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yes you will be crushed like a pan cake. because if for instance you weigh 20kgs and you went to a planet that had 400x stronger gravity than earth you would weigh 8000kgs and you wont even be able to move a muscle.
Special condition: if the planet were rapidly rotating then the gravity about its equator would be significantly less than that at the poles. To reduce a 400g gravity to 1g about its equator and if the planet had a equatorial radius of that of Jupiter
71 492 kilometers
399*(10m/s2) = v2/r
3990 *71492000 = v2
v= 534091m/s
T=71492000/534091 = 133 seconds
then the planet would have to have an rotational period of only 133 seconds. Not impossible for a neutron star.
What else can I help you with?
What would happen if Earth's gravity was a billion times stronger than a black hole's gravity?
If Earth's gravity was a billion times stronger than a black hole's, everything on Earth would be crushed instantly under the immense gravitational force. The planet itself would collapse into a black hole due to the overwhelming gravity. Life as we know it would cease to exist.
Is neptune weaker or stronger?
neptune's surface gravity is 1.14 times stronger than that of earth...but it is a planet made by gas..so you won't feel this gravity as you will sink in through gaseous layer
Is Jupiter stronger or weaker?
Because it's the biggest planet, probably stronger.
Is the gravity on neptune more or less than earths?
The gravity on Neptune is higher than on Earth. Neptune is a larger and more massive planet, so its gravitational force is stronger. If you were on Neptune, you would weigh more than you do on Earth.
Would you weigh more on a gaseous planet or a terrestrial planet?
It depends but in most cases you would weigh more on a gas planet. While the gas planets have a far greater mass than the terrestrial planets, they also have much larger radii. The strength of the surface gravity of a planet is directly proportional to its mass and inversely proportional to the square of its radius. Three of the four gas planets in the solar system have stronger surface gravity than any of the terrestrial planets. Uranus is the exception. Uranus is about 4 times the radius of Earth and 14.5 times Earth's mass, which gives Uranus a surface gravity 88.6% that of Earth. So you would weigh less on the gas planet Uranus than you would on Earth or Venus, which are terrestrial planets.
What planet has stronger or weaker gravity than earth?
All of them do. There's no planet where the gravity is the same as on Earth.
Does Earth has a stronger or weaker gravity than Earth?
It depends on what area you are on each planet, =D
What would happen if Earth's gravity was a billion times stronger than a black hole's gravity?
If Earth's gravity was a billion times stronger than a black hole's, everything on Earth would be crushed instantly under the immense gravitational force. The planet itself would collapse into a black hole due to the overwhelming gravity. Life as we know it would cease to exist.
Does ceres the dwarf planet have weaker or stronger gravity than earth?
weaker
If a planet has 4 times the density but half the diameter of earth is it's gravity stronger or less?
No, the gravity of this planet will not be greater than that of earth. If the new planet has a mass equal to that of earth, its total gravity will be the same. There is a little ambiguity regarding 4 times earth density and half the earth's diameter if the idea is to keep the mass of this proposed planet the same as the earth. But setting that aside and assuming that the mass of the new planet is the same as earth's, the gravimetric field will be the same. Gravity is proportional to mass, and identical mass yields identical gravity. Now to the good part! The surface gravity of the new planet will be considerably higher than the surface gravity of earth. Both planets have the same mass and the same gravity, but a person standing on the surface of the new planet will be experiencing a whole lot more force pulling on him. All the mass of the new planet is beneath this person, but he's a lot closer to the center of gravityand will weigh a whole lot more.
Why is the weight of an object on earth different from its weight on the moon?
Because earth is a larger planet than the moon, it has a stronger gravity. Bigger the planet > Stronger the gravity. That is the rule. Since our moon is a much smaller planet, it has weak gravity, and so the object is not being pulled down as hard, so it reduces the overall mass.
Is mercurys gravity stronger than earths?
Planet Mercury and Planet Earth are both rocky planets. But Mercury is much smaller than Earth, so has much less force of gravity. Your answer is "No".
How strong is the gravity on Gliese 581c?
If it is a rocky planet with a large iron core, Gliese 581c has a radius approximately 50% larger than that of Earth. Gravity on such a planet's surface would be approximately 2.24 times as strong as on Earth. If Gliese 581 c is an icy and/or watery planet, its radius would be less than 2 times that of Earth, even with a very large outer hydrosphere. Gravity on the surface of such an icy and/or watery planet would be at least 1.25 times as strong as on Earth.
On which planet is she the gravity stronger or weaker than on Earth and why?
Any body bigger than Earth should have a stronger gravitational pull, and vice versa. They do because of their larger size. The core of the planets would be bigger or smaller than Earth.
Is Mars' gravity stronger or weaker than earth's?
Mars has a weaker gravity than earth because it is a smaller planet and is smaller than
Is there more gravity on Earth than on Jupiter?
Yes, there is more gravity on Jupiter than on Earth. Jupiter is a much larger and more massive planet than Earth, so it has a stronger gravitational pull. This means that the force of gravity on Jupiter is greater than on Earth.
Why weight would be different on planets by talking about gravity?
Weight is the force of gravity acting on an object's mass. Because gravity varies from planet to planet, an object would weigh different amounts depending on the gravitational pull of that planet. For example, an object would weigh more on a planet with stronger gravity, like Jupiter, and less on a planet with weaker gravity, like Mars.
