A 120 gram object, on the Moon, would weigh about one sixth of its Earth weight of 120 "grams weight" or "grams force".
Its weight would be about 19.87 grams force on the surface of the Moon.
Be careful: grams force is different from grams.
120 gram-force units is about
0.2646 pounds (1.177 newtons), which is a force from gravity, not a mass.
On the surface of the Earth, a 120 gram object weighs 120 gram-force units.
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Observe ... A perfect example of the problems we predicted if people didn't learn
the difference between mass and weight. And there you go. Read it and weep.
There is NO SUCH THING as a "gram force". It's an invention, wrapped in smoke,
signifying nothing, and accomplishing nothing but advanced obfuscation.
The "amount of matter" in an object is its mass. It's measured in grams or kilograms,
and no matter where the object is or where it goes, its mass doesn't change.
The gravitational force between that object and another one ... such as the Earth,
or the moon, or another planet ... depends on the mass of both objects, and on the
distance between them.
The forces can be expressed in newtons, pounds, stones, or other things like
that. But grams are NOT a force. If you try to use grams as a force, then as
soon as you leave the Earth, you're stuck. If you go to other places, then your
kilogram doesn't "weigh" a kilogram anymore, and you have to make up an
ugly tool like a "gram-force" to get yourself out of the jam you're in.
The answer to the question is:
-- A 120-gram object weighs 1.18 newtons on Earth, and 0.195 newton on the Moon.
-- In "customary" units, a 120-gram object weighs 4.23 ounces on Earth, and
0.7 ounce on the Moon.
-- It has 120 grams of mass everywhere. But it doesn't "weigh" 120 grams anywhere,
because "gram" is not a weight, or a force of any kind.
The weight of an object depends on the gravitational pull at that specific location. Gravitational force varies at different places on Earth's surface and in space, affecting the weight of objects. Weight is the measure of the force of gravity acting on an object's mass.
No, the density of a sample does not depend on its location on Earth. Density is a physical property of a substance that remains constant regardless of its location. However, the gravitational force acting on an object can affect its weight, which may give the appearance of a change in density when in fact it remains the same.
If an object has a mass of 3.5 kg, then its mass is 3.5 kg. Doesn't matter where it is.Its weight may change in different places and situations, but its mass won't.
Our mass and our weight on Earth just so happens to be really close numbers here on Earth because we were created here. Mass= The space your body takes up or how much volume you take up. Weight=the amount of gravity pulling you down. So say we were to go to the moon. Your mass would be much more than your weight since there is hardly any gravity on the moon.
You are measuring the magnitude of the force required to hold the object stationary within a particular gravitation field. The weight of an object is relative to the gravitational field acting upon it. Mass is a physical property of an object where weight indicates a force acting against the object. The weight of an object on the moon will be about 1/6th of the weight it has on Earth, but its mass will be the same in both places.
Weight does not change with location, as weight is a measure of the gravitational force acting on an object and is the same everywhere on Earth. However, an object's mass remains constant regardless of location.
No it does not. Its weight, however, does.
No, the weight of a body remains the same regardless of its location on Earth. Weight is determined by the mass of the object and the strength of gravity, which is relatively constant across the Earth's surface.
Weight on Earth is not completely independent of location, as it can vary slightly depending on the distance from the center of the Earth. However, these variations are generally negligible at everyday scales. The weight of an object on Earth is primarily determined by the acceleration due to gravity, which is relatively constant at the surface of the Earth regardless of location.
The mass of an object remains constant regardless of its location because it is a measure of the amount of matter present in the object. However, an object's weight, which is the force of gravity acting on it, can vary based on the location. Weight is dependent on the gravitational field strength, so an object will weigh less at a location with weaker gravity (such as in space) and more at a location with stronger gravity (such as on Earth).
Weight depends on the gravitational pull acting on an object, so it can vary based on location (e.g. weight on Earth vs. weight on the Moon). However, mass is a constant measurement of the amount of matter an object contains because it is a fundamental property of the object that does not change regardless of location.
The mass of an object remains constant on Earth because mass is a measure of the amount of matter in an object, and this does not change based on the location or environment. Gravity affects weight, not mass, so an object's mass will stay the same regardless of where it is on Earth.
The difference between weight, OK say that your on the moon your weight is the same that it was on earth but your mass will be totally different then it was on earth.
No, the mass of an object is independent of where it is. The mass does not change. However, the weight (that is the product of mass and gravity acceleration) changes by change of the gravity. For example, the gravity on the moon is 1/6th that on earth. so, the object weight on the moon is 1/6th the same object weight on earth.
The mass of an object remains the same regardless of its location. Mass is a measure of the amount of matter in an object, so it does not change when the object is moved from Earth to the Moon. However, the object's weight would change due to the difference in gravitational pull between Earth and the Moon.
Yes. Mass is a measure of the amount of matter in an object and remains constant regardless of the location. Weight, on the other hand, is the force of gravity acting on an object and can differ depending on the gravitational strength of the location.
Yes, because if you are 90 pounds on earth you would be 15 pounds on the moon. This is because weight is the force of gravity acting on an object, and the force of gravity depends on the mass of the object. The force of gravity on the earth is six times greater than that of the moon, or, the force of gravity on the moon is 1/6 that of the earth. On earth, a person's weight would vary slightly between sea level and the top of a mountain. This is because the force of gravity is stronger the closer an object is to the center of the earth (or moon, or planet).