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.
On Earth weight and mass are the same, so 100 grams.
Weight = mass x gravity. Since the gravity is about 9.8 meters per second square, that would result in a weight of 980 Newton.
196 newtons
44.1 pounds
(both rounded)
0.98 newtons (3.53 ounces)
9.78 newtons (2.205 pounds)
An object on the moon's surface weighs 16.55% as much as the same object weighs when it's on the Earth's surface. That's about 1/6 as much.
An object on the moon's surface weighs 0.165 as much as it does on the Earth's surface.
The moon has plenty of gravity. In accordance with its mass and radius, any object weighs about 16.5% as much on the moon's surface as it does on the Earth's surface.
If it's on or near the surface of the Earth, then it weighs 970.9 newtons (218.3 pounds).
an object that weighs 30 ib on earth weighs how many pounds on the moon
An object on the moon's surface weighs 16.55% as much as the same object weighs when it's on the Earth's surface. That's about 1/6 as much.
An object on the surface of the moon weighs about 1/6 as muchas it weighs on the surface of the Earth.
An object on the Moon's surface weighs 16.55% as much as the same object weighs when it's on the Earth's surface. The fraction is roughly 1/6.
An object on the Moon's surface weighs 16.55% as much as the same object weighs when it's on the Earth's surface. The fraction is roughly 1/6.
An object on the moon's surface weighs 0.165 as much as it does on the Earth's surface.
An object on the surface of Mars weighs about 37% of its weight on the surface of earth.
An object on the surface of Mars weighs about 38% of its Earth weight.
An object on the moon's surface weighs 16.55% as much as the same object weighs when it's on the Earth's surface. That's about 1/6 as much.
The moon has plenty of gravity. In accordance with its mass and radius, any object weighs about 16.5% as much on the moon's surface as it does on the Earth's surface.
The moon has plenty of gravity. In accordance with its mass and radius, any object weighs about 16.5% as much on the moon's surface as it does on the Earth's surface.
The acceleration of gravity on or near the surface of the moon, and therefore the weight of objects located there, is about 83.5 percent less than on Earth. An object on the surface of the moon weighs about 1/6 of what it weighs on Earth.
Force is porportional to area. A purely (theoretical) flat surface will have equal amounts of force applied to every point in contact, provided that the object weighs the same in each point.