162 newtons.
"Newton" is a unit of force. "Kg" is a unit of mass. They're used to describe themeasurements of completely different types of quantities, so they don't directlyconvert.100 kg of mass, on earth, weighs about 980 newtons. In other places, its weightis different.980.7 N
There is 22.480894387096182 Pounds in 100 Newtons.
On the moon, 10 kg of mass weighs 16.2 newtons (3.65 pounds). (rounded)
At Earth's surface 100lbs is 444.82 Newtons.
There are approximately 22.49 pounds in 100 Newtons.
1,000 kg of mass weighs 9800 newtons on Earth, 1,620 newtons on the moon, and other, different weights in other, different places.
Since the acceleration of gravity on the moon is roughly 1/6 of the gravity on earth, a body that exerts the force of 100 newtons on the earth surface would exert 1/6 of that force when on the surface of the moon, or approximately 16.7 Newtons. You may ask "Why?". Look at the equation of Force: Force = mass x acceleration F=m.a The mass remains the same in both cases (moon surface or earth surface). The acceleration is the only parameter that changes. Acceleration due to gravity on the surface of the Earth is 6 times the acceleration due to gravity on the surface of the moon. Hope that helps.
4
Oh, dude, on the moon, a 100 kg mass would weigh about 16.5 kg because the moon's gravity is about 1/6th of Earth's gravity. So, like, if you're planning on a moon trip to lose some weight, I wouldn't recommend it. Just stick to the gym, man.
"Newton" is a unit of force. "Kg" is a unit of mass. They're used to describe themeasurements of completely different types of quantities, so they don't directlyconvert.100 kg of mass, on earth, weighs about 980 newtons. In other places, its weightis different.980.7 N
We know that the weight of any object = the mass of the object* g, [where g is the gravitational acceleration]. For any object the mass will be constant in any case. Though Einstein proved that if any object moves with the velocity greater than light it's mass will increase. But in this case the mass will not change. But the gravitational acceleration will change. It is proved that the gravitational acceleration of moon is 1/6 of the gravitational acceleration of the earth. So, the weight of the object on moon will be 100/6 newton=16.666(apporximately) newtons.
There is 22.480894387096182 Pounds in 100 Newtons.
On the moon, 10 kg of mass weighs 16.2 newtons (3.65 pounds). (rounded)
On earth, 100 kg of mass weighs 980 newtons (220.46 pounds).
A mass of 100 pounds, weighs approx 444.5 Newtons. A kilogram is not a measure of weight, a Newton is.
F = GMm/R² where * F is the force of attraction between two objects * G is the universal gravitational constant; G = 6.67*10-11 N-m²/kg². The units of G can be stated as Newton meter-squared per kilogram-squared or Newton square meter per square kilogram. * M and m are the masses of the two objects * R is the distance between the objects, as measured from their centers * GMm/R² is G times M times m divided by R-squared this is newtons gravity equation, it is not as accurate as einsteins but in this case it should do the trick. there is more on this website: http://www.school-for-champions.com/science/gravity_universal_equation.htm
The mass won't change, so the answer is 100 kg.