38 lb
The acceleration of gravity on Mercury's surface, and therefore the weight of anyobject located there, is 37.7% of its value on the surface of the Earth. It followslogically that a person whose body weighs 100 pounds on the Earth's surfacewould weigh 37pounds 11.2ounces on the surface of Mercury just before it beganto vaporize in the bright sunshine there.
A 150 pound person would weigh 179 pounds on Neptune. The surface gravity on Neptune is 119% of Earth's surface gravity.
Please note that a black hole doesn't have a surface on which you can stand. Basically, the closer you get, the stronger the force of gravity would get.
Neptune's gravity is 1.14 times the earths gravity. So if you weigh 100 pounds you would weigh 114 on Neptune.
It's about 38% of the strength of Earth's surface gravity.
10 pounds
Not much, if you weigh 100lbs on Earth, you would weigh 37.7lbs on Mars.
The acceleration of gravity on Mercury's surface, and therefore the weight of anyobject located there, is 37.7% of its value on the surface of the Earth. It followslogically that a person whose body weighs 100 pounds on the Earth's surfacewould weigh 37pounds 11.2ounces on the surface of Mercury just before it beganto vaporize in the bright sunshine there.
A 150 pound person would weigh 179 pounds on Neptune. The surface gravity on Neptune is 119% of Earth's surface gravity.
The (centripital) force due to rotation is at its greatest at the equator, if you weigh 100 kg, the force of gravity on you = approx. 982 n anywhere on earths surface, the centripetal force at the equator = 3.4 n
Please note that a black hole doesn't have a surface on which you can stand. Basically, the closer you get, the stronger the force of gravity would get.
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.
The force of gravity at the surface of Venus is 8.87 meters per second per second, or 8.87 meters per second squared. If you weighed 100 pounds on Earth, you would weigh approximately 91 pounds on Venus.
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.
There are forces of gravity between every speck of mass in the universe and every other speck of mass, no matter where they are, how far apart, or how large or small, all the time, everywhere, right now.
You would weigh more at sea level. As you get father away from the surface of the earth, the force of gravity is weaker
Yes, weight is the force of gravity on an object. Which is why you would weigh less on the Moon. An object on the Moon will weigh only 16.6% of what they weigh on the Earth.