Simple. Weigh it
Yes.
The only way to change anythings gravity is to change its' mass. (apex) Increase the mass of the object Decrease the distance of the object from Earth
If the object's mass is 120g, then it's 120g. 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 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...)
nothing would happen
-- Measure the force of attraction between the object and the earth. ("WEIGH" the object.)-- Divide the force by the acceleration of gravity.-- The answer is the mass of the object.
Find what the mass here on earth is then multiply it by three
The mass of an object itself does not change on the moon. However, an object's weight is less than it would be on Earth because the moon's gravity is weaker than Earth's gravity.
Your mass is always the same.
Without knowing either the mass of an object or its density, it would be impossible to find the mass. There would be two variables and only one equation. Thus, one cannot find the mass of an object solely from its volume.
The object's mass is the same wherever it is. Mass doesn't change. What changes is the object's weight.The weight depends on what other mass happens to be nearby.When you know the object's weight on earth, multiply that by 0.1633 to find its weight on the moon.If you don't need it that close, it might be easier to just divide the earth weight by 6.
The mass of a 65n object on earth is 6.63 kilograms.
Use a balance with standard masses to find the mass. You need only find the mass at one of the two locations. Find the weight using a spring balance.
The object would have the same mass as mass remains constant everywhere. On the other hand if it was weight it would change as weight = mass multiplied with gravitational force.
dnt trip
Yes.
The weight would double, while the mass stayed the same.