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
A man that weighs 60 kg on Earth would weigh less on the moon. He would weigh 9.9 kg on the moon.
You would weigh approximately one-sixth of what you weigh on earth, so 11 2/3 kg.
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.
A 10-kg mass would weigh 98 newtons (22.05 pounds) on earth, and 16 newtons (3.6 pounds) on the moon.
If I were to be in space which would be awsome I would be or you would be 3kg on the moon. If you were 30 kg you would be 5kg on the moon.
1 kg
A man that weighs 60 kg on Earth would weigh less on the moon. He would weigh 9.9 kg on the moon.
1 kg mass would weigh about 167 grams on the moon.
100 kg
1.6 kg
100*4.3 = 430 kg!
1600 kg
About 100-115kg.
About 1/6 of what you weigh on Earth. For example, if you have a mass of 60 kg, on Earth you weight about 600 N, while on the Moon you would weight about 100 N.
You would weigh approximately one-sixth of what you weigh on earth, so 11 2/3 kg.
2 kg.
100kg = 220.5 pounds.