No, the weight of an object is found by multiplying its mass by the gravitational field strength: w=mg
no. Your weight would be 1/6 what it is on earth because the moon has 1/6 the gravity
You weight on the moon is 16.5% of what your weight is on Earth.
False
The weight of the bag of sugar on Mars would be about 0.38 times its weight on Earth, due to Mars having weaker gravity. On Jupiter, the weight of the bag of sugar would be about 2.53 times its weight on Earth, since Jupiter's gravity is much stronger.
No, the weight of the moon rock would not change if it was brought to Earth. Weight is a measure of the force of gravity acting on an object, which would be the same on the moon as it is on Earth. The mass of the rock would stay the same as well.
The same as your scales tell you.
no. Your weight would be 1/6 what it is on earth because the moon has 1/6 the gravity
No. You would would weigh only about 38% of your weight on Earth.
If earth's mass were to remain the same, your weight would be constant, i.e. it would not change.
You weight on the moon is 16.5% of what your weight is on Earth.
Mass
the same
You would be the same age if you were on the moon. Your weight would be approximately 1/7 of your weight here on Earth.
False
falseIt is false. Your weight would be less on the moon but your mass would be the same.
The weight of the bag of sugar on Mars would be about 0.38 times its weight on Earth, due to Mars having weaker gravity. On Jupiter, the weight of the bag of sugar would be about 2.53 times its weight on Earth, since Jupiter's gravity is much stronger.
If every human on earth were to jump at the same time, the collective force generated would be extremely small compared to the size of the planet. It wouldn't have a noticeable effect on earth's position or orbit. The impact would be equivalent to a small earthquake.