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.
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.
Newtons Law of gravity. F=Gm1m2/r^2
..weigh less and the pendulum will swing at a slower rate. It might become more valuable (high mountain areas have less access to fine clocks than many sea level communities).
Yes, weight is the force of gravity on an object. Which is why you would weigh less on the Moon. An object on the Moon will weigh only 16.6% of what they weigh on the Earth.
no you would weigh less at the top of the skyscraper
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.
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.
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.
Newtons Law of gravity. F=Gm1m2/r^2
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.
..weigh less and the pendulum will swing at a slower rate. It might become more valuable (high mountain areas have less access to fine clocks than many sea level communities).
the less oxygen
sea level because the closer you get to the center of the earth the more pressure there is and a top a mountain there is less gravity force pulling you down so you feel a lot lighter.
Objects under water seem to weigh less but they have the same mass as they would out of water.
Weight is mass, when accelerated by a gravitational pull. In space you are weightless, but still have mass. The same object will weigh less at the top of a mountain, because there is slightly less gravity. It will still be the same object and therefore have the same unchanging mass.
Anytime you are in a place with less gravity, you or any object will weigh less. The force of gravity on the moon is much less than on Earth.
The higher you go the less effect gravity has on you.