Simply put, the moon has less mass than Earth does.
Weight depends on acceleration due to gravity and similarly acceleration due gravity depends on force of gravity. The force of gravity of moon is 6times less than that of earth and due to this their is variation in acceleration due to gravith between the earth and the moon. As there is difference in acceleration due to gravity between the earth and moon, the magnitude of weight also vary . And next most important thing to keep on mind is that mass is independent of gravity so it does not change anywhere ....
No. Acceleration due to gravity on the moon is roughly 1/6 of that on Earth.
Mass is the amount of matter in an object. Mass is constant, regardless on the acceleration due to gravity of different planets. So, if someone were to compare their mass on Earth and on the Moon, it would be the same, because the amount of matter in object would not change. However, weight is the force of gravity pulling down on an object. If you were to weigh yourself on Earth and on the Moon, you'd weigh much less on the Moon since there is less acceleration due to gravity. Recall that acceleration due to gravity on Earth is -9.81m/s^2.
The gravitational potential energy is [ m g h ]. m = the object's mass g = the acceleration of gravity where the object is h = the object's height above the surface 'm' and 'h' are the same on the moon, but 'g' on the moon is only about 0.16 of what it is on earth. So [ m g h ] is also only about 0.16 of what it is on earth.
while the mass of the astronaut doesn't change the acceleration of gravity on the moon is much less than that on earth. Since weight is a measure of force (N)=m(kg)xa(m/(ss)), a decreased gravity on the moon would mean a decreased weight
Weight depends on acceleration due to gravity and similarly acceleration due gravity depends on force of gravity. The force of gravity of moon is 6times less than that of earth and due to this their is variation in acceleration due to gravith between the earth and the moon. As there is difference in acceleration due to gravity between the earth and moon, the magnitude of weight also vary . And next most important thing to keep on mind is that mass is independent of gravity so it does not change anywhere ....
Mass is the amount of matter in an object. It does not change based on gravity. Weight is the force an object exerts 'downward' due to gravitational acceleration. Force = (mass)*(acceleration). Acceleration due to gravity is less on the Moon than on Earth.
No. Acceleration due to gravity on the moon is roughly 1/6 of that on Earth.
Mass is the amount of matter in an object. Mass is constant, regardless on the acceleration due to gravity of different planets. So, if someone were to compare their mass on Earth and on the Moon, it would be the same, because the amount of matter in object would not change. However, weight is the force of gravity pulling down on an object. If you were to weigh yourself on Earth and on the Moon, you'd weigh much less on the Moon since there is less acceleration due to gravity. Recall that acceleration due to gravity on Earth is -9.81m/s^2.
No. Weight is a force and is equal to an object's mass X acceleration due to gravity. My mass is the same on the Earth and on the moon but my weight is different because there is less gravity on the moon.
The acceleration due to gravity is greater at sea level.
yes the less mass it has the more acceleration.
-- On line or in a book, look up the acceleration due to gravity on the Earth. -- On line or in a book, look up the acceleration due to gravity on the Moon. -- Divide the Moon's number by the Earth's number. The answer is the fraction of Earth's gravity that you'll encounter on the moon. -- You can do the same for every planet in the solar system, plus several moons and asteroids.
The two are unrelated. Potential energy depends on height; acceleration due to gravity is more or less constant.
No. The rate of acceleration due to gravity on the Moon is 1.6249 m/s2 which is 16.7% of that on Earth. Things on the Moon weigh 16.7% of what they would on Earth.
the earth and moon have different values for the acceleration due to gravity.
the earth and moon have different values for the acceleration due to gravity.