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The moons gravity is less than that of the earth, since the earths mass is greater than the moons mass. Gravity is related to mass and distance from that mass. The greater the mass, the greater the gravitational field it has.

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Why is the gravitational field strength on the moon less than on the earth?

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.


Why does an astronaut weigh less on the moon that on earth?

Your weight is a function (G=mg) of the gravitational pull (g) and the mass of the object in question (m). The mass of the Moon is only 1/6 that of Earth, so the astronaut on the Moon weighs only 1/6th as much as he does on Earth. His mass does not change.


If an object has a mass of 26 g on earth would its mass be less than 26 g on the moon?

If an object has a mass of 36g on earth it will also have a mass of 26g on the moon. This is because while weight varies depending on gravity, mass is a universal constant that reflects the number of molecules in an object.It's mass would be the same (amount of matter) But it's weight would be less on the moon, yes.


What is the acceleration that any object falls with toward earth?

The acceleration on earth is 9.807 meters per second squared. In comparison, the moon's acceleration is only 1.62 m/sec squared; about 6.05 times less. This is why objects on earth weigh six times less on the moon.


What is the ratio of natural frequency on earth to moon?

The ratio of the natural frequency on Earth to the Moon is approximately 3.7:1. This means that vibrations or oscillations on Earth occur about 3.7 times faster than on the Moon due to differences in gravity and mass between the two celestial bodies.

Related Questions

Value of g in universe?

I think that g (the gravitational constant) varies dependent on your proximity to other massive bodies. For example the value of g on the moon is less than the value of g on earth. It is not constant throughout the universe.


What happens to the objects weight when it travel's to the moon?

weight is defined as the force acting on a body in a gravitational field, so it is can be written asW = mg where m is the mass of the body and g is the acceleration due to gravity.On earth g has a value of approx. 9.81 ms-2 whereas on the moon the value of g is approx. 1.7ms-2. So the weight of an object decreases by a factor of 1/6th of its original value when taken on the moon.


How would the time period of a simple pendulum clock be affected if it were on the moon instead of the earth?

The time period of a pendulum would increases it the pendulum were on the moon instead of the earth. The period of a simple pendulum is equal to 2*pi*√(L/g), where g is acceleration due to gravity. As gravity decreases, g decreases. Since the value of g would be smaller on the moon, the period of the pendulum would increase. The value of g on Earth is 9.8 m/s2, whereas the value of g on the moon is 1.624 m/s2. This makes the period of a pendulum on the moon about 2.47 times longer than the period would be on Earth.


Value of gravitational constant on earth and moon?

It's the same as that of Earth but the value of g varies from one object to the other. The value of the gravitational constant or the BIG "G" remains constant. I think you confused it with the LITTLE "g" which is the gravitation of a object (one with mass) or the acceleration due to gravity. The value of g on Earth and Moon is 9.8m/s^2 and 1.6249m/s^2, respectively. I hope this answers you all.


What is the value of 'G' on earth and on moon?

The average equatorial surface gravity on Earth is 0.99732 g On the moon it is 0.1654 g The numerical constant G that is used in Newton's Law of Universal Gravitation is a constant no matter where you are. (6.67 X 10-11).


Why is the gravitational field strength on the moon less than on the earth?

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.


Why does an astronaut weigh less on the moon that on earth?

Your weight is a function (G=mg) of the gravitational pull (g) and the mass of the object in question (m). The mass of the Moon is only 1/6 that of Earth, so the astronaut on the Moon weighs only 1/6th as much as he does on Earth. His mass does not change.


What is the force that pulls objects down towards the moon?

The force we are talking about is the force of gravity... which we usually denote with small g... its value on earth is approx. 9.8m/s2 or 32ft/s2. The force of gravity of moon is 1/8th to that of the earth...... This is due to this less force of gravity that we feel weightlessness on moon...


If object has a mass of 26 g on earth would its mass be less than 26 g on the moon?

It's mass would be the same


If an object has a mass of 26 g on earth would its mass less than 26 g on the moon?

It's mass would be the same


If an object has a mass of 26 g on earth would its mass be less than 26 g on the moon?

If an object has a mass of 36g on earth it will also have a mass of 26g on the moon. This is because while weight varies depending on gravity, mass is a universal constant that reflects the number of molecules in an object.It's mass would be the same (amount of matter) But it's weight would be less on the moon, yes.


Why can an astronaut on the moon carry a much heavier load than on earth?

people weigh less on the moon that's why astronauts wear heavy equipment ======================================================= Weight, unlike mass, is affected by gravity. As the Moon's gravity is approximately one sixth the Earth's, a person on the Moon would weigh one sixth of what they weigh on Earth. Their mass, however, would stay the same.