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Does a object weigh more at the top of a tall mountain or at sea level?
An object will weigh slightly less at the top of a tall mountain compared to at sea level due to the decreased gravitational pull at higher altitudes. This is because gravitational acceleration decreases with distance from the center of the Earth.
Why would you weigh less on a high mountain peak than you would at sea level?
The weight of an object is the force of gravity on the object's mass. At the top of a mountain, you are slightly farther from the center of the earth, and so the earth's gravity is very slightly weaker. Thus, you weigh a tiny, tiny bit less at the top of the mountain than at sea level.
Why would you weigh less on a high mountain peek and weigh more at sea level?
You would weigh less on a high mountain peak due to the decreased gravitational force at higher altitudes, which is farther from the center of the Earth. At sea level, you would weigh more due to the stronger gravitational pull closer to the Earth's center.
Why does an object weigh less at the top of the mountain than does at sea level?
It has to do with Earth's gravitational force. The farther away an object is from the object it is attracted to (in this case, the solid, magnetic core of the Earth), the less effect the force of gravity has on it.
Why do you think you would weight less on a high mountain peak than you would at sea level?
You would weigh slightly less on a high mountain peak than at sea level due to the decrease in gravitational force at higher altitudes. This is because the force of gravity weakens with distance from the Earth's center, which is measured from the mountain peak to the center, causing a slight reduction in weight.
Would you weigh less on a high mountain peak than you would at sea level?
The weight of an object is the force of gravity on the object's mass. At the top of a mountain, you are slightly farther from the center of the earth, and so the earth's gravity is very slightly weaker. Thus, you weigh a tiny, tiny bit less at the top of the mountain than at sea level.
Why would you weigh less on a high mountain than at sea level?
The weight of an object is the force of gravity on the object's mass. At the top of a mountain, you are slightly farther from the center of the earth, and so the earth's gravity is very slightly weaker. Thus, you weigh a tiny, tiny bit less at the top of the mountain than at sea level.
Does a object weigh more at the top of a tall mountain or at sea level?
An object will weigh slightly less at the top of a tall mountain compared to at sea level due to the decreased gravitational pull at higher altitudes. This is because gravitational acceleration decreases with distance from the center of the Earth.
Why would you weigh less on a high mountain peak than you would at sea level?
The weight of an object is the force of gravity on the object's mass. At the top of a mountain, you are slightly farther from the center of the earth, and so the earth's gravity is very slightly weaker. Thus, you weigh a tiny, tiny bit less at the top of the mountain than at sea level.
Why would a person weigh more on top of a mountain then on the earth?
They would not. In fact, they would weigh slightly less. The force of gravity decreases as an object gets further from the centre of the Earth.
Why would you weigh less on a high mountain peek and weigh more at sea level?
You would weigh less on a high mountain peak due to the decreased gravitational force at higher altitudes, which is farther from the center of the Earth. At sea level, you would weigh more due to the stronger gravitational pull closer to the Earth's center.
Why does an object weigh less at the top of the mountain than does at sea level?
It has to do with Earth's gravitational force. The farther away an object is from the object it is attracted to (in this case, the solid, magnetic core of the Earth), the less effect the force of gravity has on it.
Why do you think you would weight less on a high mountain peak than you would at sea level?
You would weigh slightly less on a high mountain peak than at sea level due to the decrease in gravitational force at higher altitudes. This is because the force of gravity weakens with distance from the Earth's center, which is measured from the mountain peak to the center, causing a slight reduction in weight.
Why do you weigh different on objects in space?
Is your question "what do you weigh different objects on in space...", or "why would you attempt to weigh an object in space"...?
An object from earth would weigh on the moon?
about a 1/6th
How would you find the mass of an object on earth?
Simple. Weigh it
Where would you weigh the most at the beach at the bottom of a deep mine or on a mountain top?
You Would Weigh The Most At The Bottom Of A Deep Mine. Reason Being is that you would weigh the same on top of a mountain as mush as you would on a beach because your are on the ground and gravity affects you the same when your there.
