The weight would be in the ratio of the accelerations due to gravity on the surfaces of the two bodies - approximately 1/6.
The force of gravity on the moon is approximately one sixth that of the earth. The direct variation formula for weight on the earth compared to weight on the moon would be weight on earth divided by 6 is equals to weight on the moon.
The weight of any object on the Moon is about 1/6 of the weight of the same object on the Earth.
it is your weight on earth divided by 10
Your weight on the moon is one-sixth (1/6) what it is on earth.
On Earth there is gravity pulling objects down and adding weight. On the moon there is no gravity so objects are weightless.
On the Earth, the object weighs 6.04 times as much as its weight on the moon.
It would weigh less on the Moon and more on the Sun.
It would weigh less on the Moon and more on the Sun.
Weight can be calculated using the formula W=mg, where m is mass and g is gravity. Your weight on Moon is 16.5% of what you experience on Earth.
look at ur balls and cry
your weight is one sixth on the moon than how your weight is on earth
You can't compare WEIGHT with MASS - those two are used to measure quite different things. It doesn't make sense to say that they are the same, or that they are different. You can only compare mass with mass, or weight with weight.
You weight on the moon is 16.5% of what your weight is on Earth.
The force of gravity on the moon is approximately one sixth that of the earth. The direct variation formula for weight on the earth compared to weight on the moon would be weight on earth divided by 6 is equals to weight on the moon.
Your weight . . . the weight of anything on Luna, our moon, is a sixth of its weight on Earth.
If your weight is 58 on earth it is different on the moon because the gravitational pull on the moon is different.
On the Moon one weighs one-sixth the weight on Earth.