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If an object has a mass of 120 g on earth then on the moon it would have a mass of what?
The mass of an object remains the same regardless of where it is located, so the object would still have a mass of 120 g on the moon. However, its weight would be different on the moon due to the moon's lower gravity compared to Earth.
Would the above solid have a mass of 180 g on the moon would it have the same weight on eath as on the moon?
No, the mass of the object remains the same regardless of location, so it would still be 180 g on both the Moon and Earth. However, weight is dependent on the gravitational pull of the body, so the weight of the object would be different on Earth compared to the Moon due to their differing gravitational strengths.
What is the weight of a 42 kg object if the object was on the moon where g is always 1.6 ms?
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...)
What would the weight of a 352g object be on the moon?
Considering that the moon is about 1/4 of the size of the planet Earth, its gravity is aroung 83.3% (or 5/6) less that of our planet, therefore, if "weight" is the measure of the gravitational pull between two objetcs, 352g of an object on Earth, it will weight 58.4 g on the surface of the moon.
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 does the weight of the mass of an object change if it is on the moon?
mass is constant 2kg on earth is 2kg on the moon. Weight depends on gravity. W = mg where g is grav. acceleration. Since gravity is less on the moon, then weight is less on the moon for the same object
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.
Is Weight is the force of gravity on an object?
Weight is the force of gravity acting on an object's mass. It is the product of an object's mass and the acceleration due to gravity (W = m x g), where 'm' is the object's mass and 'g' is the acceleration due to gravity (approximately 9.8 m/s^2 on Earth).
An object has a mass of 120 g on earth what would it be on the moon?
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.
Would the weight of a person be the same on the surface of the moon and the earth?
The weight of an object is the product of its mass (M) and the acceleration due to gravity (g). We represent this product as mass, m times (x) acceleration (g) = mg. On the moon, (g) is less than that on the earth. Hence every object on the moon will have a lower or smaller weight when compared with its weight on the earth. The quantity of matter in both locations will be the same, but the product or weight will be different. This is taught in physics and experienced by astronauts. That is why astronauts can move around and carry weights with less hindrance. A man on the moon could, (except for the strings and tubes that hold him) run faster on the moon when compared with his speed on earth if he has as much oxygen to breath.
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
