Because gravity is relatively constant anywhere on Earth's surface.
The difference between a person's weight on the earth and on the moon has to due with the difference between mass and weight. Mass is a measure of the amount of matter and weight is the pull of gravity on that mass. Gravity on the moon is about 83% that on earth, so if you weigh 100 lbs on earth, you will weigh approximately 17 lbs on the moon.
The weight of the Sun is about 333,000 times the weight of the Earth. This is because the Sun is much larger and more massive than the Earth. The Sun's mass is approximately 333,000 times that of Earth.
Weight would change when an object is taken from Earth to the Moon due to the difference in gravitational pull between the two celestial bodies. It would weigh less on the Moon compared to Earth.
Mass is a universal unit. It does not change depending on your location because the amount of matter something is made of does not change from location to location. Weight is a much more relative unit. Weight is related to gravity as opposed to the amount of mass making up something. On the moon has approximately 1/6 the gravity of Earth. Therefore, if you weigh 120 pounds on Earth you would weigh 20 pounds on the moon. Because earth's gravitational pull is stronger than the moon's.
the difference between the gravitational pull on th eearth and moon is 1/6th. The gravitational pull on the earth is 6 times more than the garvitational pull of the moon. If some one weighs 36 kgs on earth then the weight on moon will be 6 kgs.
Because gravity is relatively constant anywhere on Earth's surface.
The difference between a person's weight on the earth and on the moon has to due with the difference between mass and weight. Mass is a measure of the amount of matter and weight is the pull of gravity on that mass. Gravity on the moon is about 83% that on earth, so if you weigh 100 lbs on earth, you will weigh approximately 17 lbs on the moon.
Because the acceleration of gravity is almost precisely the same anywhere on earth. Weight is the force of gravity on a mass. However, if you have extremely sensitive equipment, you can detect the different weight of a given mass at different locations.
The weight of an object on the moon's surface is 16.3% of the same object's weight on the earth's surface.
Because the atmosphere is such a thin layer and we rarely leave it. We stay at roughly the same elevation so the force of gravity is relatively unchanged. On the peak of Mt. Everest, we might measure a tiny decrease in weight. Likewise, in the deepest mine, we might as well.
The weight of the Sun is about 333,000 times the weight of the Earth. This is because the Sun is much larger and more massive than the Earth. The Sun's mass is approximately 333,000 times that of Earth.
Strictly speaking you should say "mass" for this sort of question. Anyway Neptune's mass is about 17 times the Earth's mass.
The mass is 64.44 grams. But the difference between mass and weight is that mass is weight is how heavy it is on the planet you weigh it on and mass it the weight it is on Earth, whether is is on Earth, or not.
The difference between mum and dad's mass is 16.5 kg. The difference in their weight will be approx 161.7 Newtons on the surface of the Earth. Because their weights will depend on the force of gravity acting on them it is not possible to be precise about the difference.
Yes. The relationship is: weight = mass x gravity Near Earth's surface, the value for gravity is approximately 9.8 newton/kilogram.
The difference in mass is (4.8673 - 4.8) = 0.0673 gram . The difference in weight, on Earth, is something like 0.00066 newton.
Weight would change when an object is taken from Earth to the Moon due to the difference in gravitational pull between the two celestial bodies. It would weigh less on the Moon compared to Earth.