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What else can I help you with?
Does mass and weight change with altitude or elevation?
Mass does not change with changes in altitude or elevation. Weight on the other hand does change. However, on earth the change from sea level to the top of a mountain would be extremely small.
Where would the air pressure be the greatest on top of a mountain or above Earth's atmosphere?
Air pressure is greatest at lower altitudes, such as at sea level, because there is more air above pushing down due to gravity. On top of a mountain, the air pressure is lower due to the reduced amount of air above. Similarly, above Earth's atmosphere, air pressure decreases significantly as altitude increases. Therefore, air pressure would be greatest at sea level, not on top of a mountain or above the atmosphere.
Why do we sense gravitational interaction with the earth but don't sense electrical forces between us and our environment?
We do. The fact that you are reading this means that you are processing electromagnetic waves. The reason gravity is stronger (electricity doesn't tend to push you around physically) is that we are sitting on top of a massive object and gravity is proportional to mass, while the Earth's electro-magnetic field is MUCH weaker (because positive and negative charges cancel but there is no anti-gravity to weaken the gravitational field).
Is the gravity the same everywhere on mars?
The gravity on any planet is generally about the same wherever you go on any planet. However there are always differences depending on where you are. if you are standing on the top of a mountain then the gravitational force below you is big er then it would be if you were standing in a depression. the same rule applies on earth. the influence of body's such as moons and planets also have an effect on the gravity in any given place on a planet.
What would change your mass or weight if you climbed up something?
The pull of gravity depends on the distance between the two objects. The total gravity of the earth is measured, roughly, from the center of the earth. The same with your body - your "center of gravity" is somewhere around your belly button. As you climb a mountain, the distance between your center and the earth's center gets a little bit longer, so the gravity is a little bit weaker. The end result is you weigh a little bit less. The same thing happens as you fly higher in an airplane. Keep going even higher in, say, the space shuttle, and eventually the gravity becomes so weak that you are practically weightless. (The mathematics and physics behind all of this is more complicated. I have tried to give a simpler answer, so before all you scientists blast me for over-simplifying, remember we don't know who asked this question in the first place, and how technical they want to get...)
Why is there less gravity at the top of a mountain?
== == All bodies in space warp space to one degree or another depending on their size and composition....their gravity is directly proportional to the center of their mass ...in other words the closer to its core the stronger the gravity ...conversly the further the weaker (a mountain)
Why would the person weigh less on top of the mountain than on the Earths surface?
A person weighs less on top of a mountain because the force of gravity is slightly weaker at higher elevations compared to the Earth's surface. This is due to the greater distance from the center of the Earth and the gravitational pull being slightly weaker at higher altitudes.
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.
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.
Where on earth is the force of gravity the lowest?
At the top of the highest mountain.The force is inversely proportional to the distance between the centers of the masses.The top of the highest mountain is the farthest you can get from the center of the earth and still remain "on 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.
Can you feel gravity on top of a mountain?
Your weight is the result of the force of gravity. Without gravity you would be weightless and would float away. This does not happen on the top of mountains. Because you are farther from the center of the Earth, your weight is slightly less on top of a mountain, but compared to the diameter of the Earth, mountains are quite small, and the difference in weight is very slight, and would not even be noticed. So yes, you feel gravity on top of a mountain.
Would an object weigh more at the top of a mountain or at sea level?
You would weigh more at sea level. As you get father away from the surface of the earth, the force of gravity is weaker
Why does the weight of a stone is less at the top of a mountain than at its bottom?
The weight of a stone at the top of a mountain is less than at its bottom because the gravitational force decreases with distance from the center of the Earth. Therefore, at higher altitudes, the force of gravity pulling the stone towards the center of the Earth is slightly weaker, resulting in a lower weight reading on a scale.
Why would a person weigh less on top of a mountain than on Earth's surface?
Because the mountain is farther away from the gravitational centre of the Earth.
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 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.
