Why does weight change with location but mass does not? (Moon example)

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Multiple Choice

Why does weight change with location but mass does not? (Moon example)

Explanation:
Weight is the gravitational force acting on an object, while mass is the amount of matter the object contains. The two are related by the equation F = m g, where F is weight, m is mass, and g is the local gravitational field strength. Mass stays the same no matter where you are, but g changes with location. On the Moon, gravity is weaker than on Earth, so the same mass experiences a smaller pull, meaning a smaller weight. For example, a person with mass stays constant, but their weight on the Moon is much less than on Earth because g is smaller there. This is why weight varies by location while mass does not.

Weight is the gravitational force acting on an object, while mass is the amount of matter the object contains. The two are related by the equation F = m g, where F is weight, m is mass, and g is the local gravitational field strength. Mass stays the same no matter where you are, but g changes with location. On the Moon, gravity is weaker than on Earth, so the same mass experiences a smaller pull, meaning a smaller weight. For example, a person with mass stays constant, but their weight on the Moon is much less than on Earth because g is smaller there. This is why weight varies by location while mass does not.

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