If the object's mass is 12 kg, then it's 12 kg. On Earth, on the moon, on Mars,
or floating weightless in a space ship coasting from one of them to another.
Weight depends on where you are, but mass doesn't.
48 newtons (10.8 pounds) (rounded)
The 'kilogram' is the SI (metric) unit of mass.24 kg is the mass of an object.The object weighs 52.9 pounds on earth, and 8.64 pounds on the moon.
I believe the Moon has about 1/6 th. of the gravity of earth. So approx 3 1/2 kg.
Kilogram (Kg)
Your mass is always the same.
The mass on the moon will remain the same, 20 kg If the object's mass is 20 kg, then it's 20 kg. On Earth, on the moon, on Mars, or floating weightless in a space ship coasting from one of them to another. Weight depends on where you are, but mass doesn't.
The object's force on the moon's surface is 294N
The weight of a 180-kg mass on the surface of the moon, rounded, is 292.1 newtons (65.67 pounds) .
If your mass has 40 kg on earth what is your mass on moon
If your mass has 40 kg on earth what is your mass on moon
The mass of an object does not depend on gravitational pull. Their mass would still be 42 g on the moon. (By the way, that's one small person, with the mass of about 3 empty soda cans...)
Gravity has no effect on the mass of an object. However, an object's weight is the measurement of gravitational force on the object. The gravitational force on the moon for example is ~ 1/6 of that on Earth. A 300 kg object would weigh 3000N (Newtons) on the Earth but only weigh 500 N on the Moon but its mass would still be 300 kg on the Moon and on the Earth.
To find the force of gravity that is acting on the moon you have to take the mass of the object and multiply it by the moon's gravity. It would be 180 kg times 1.63 m/s squared. Which equals 293.4 Newtons.
If an object weighs 130 lb on earth, then its mass is 58.97 kg. (rounded) If an object weighs 130 lb on the moon, then its mass is 361.2 kg. (rounded)
The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.The mass of the object, the mass of the object that is attracting it and the distance between their centres of gravity.So your weight on the moon will depend on your mass, the moon's mass and the distance from your centre of gravity to the moon's.
Mass doesn't change when gravity is applied. Mass: The amount of matter in an object VS. Weight: The force of gravity on an object. Example: A cow is 800 kg on Earth, and 800 kg on the moon because you are not changing what the cow is made of.