Newtons Law of gravity.
F=Gm1m2/r^2
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.
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.
You would weigh less on a high mountain peak compared to at sea level because the force of gravity is slightly weaker at higher altitudes further from the center of the Earth. The gravitational pull decreases as you move away from the Earth's center, resulting in a slight decrease in your weight.
run slightly faster due to the decrease in gravity at higher altitudes which results in a shorter period of oscillation for the pendulum.
The pendulum clock will run slightly faster at the top of the high mountain due to the lower gravitational force and therefore shorter period of the pendulum. This effect is known as gravitational time dilation and is predicted by the theory of relativity.
Water boils at a lower temperature on a mountain top due to lower atmospheric pressure at higher altitudes. This means that water will boil faster on a mountain compared to sea level where the pressure is higher.
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.
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.
You would weigh less on a high mountain peak compared to at sea level because the force of gravity is slightly weaker at higher altitudes further from the center of the Earth. The gravitational pull decreases as you move away from the Earth's center, resulting in a slight decrease in your weight.
the less oxygen
It's faster at sea level and slower at the top of a mountain.
That would be a mountain or a peak.
high mountain
run slightly faster due to the decrease in gravity at higher altitudes which results in a shorter period of oscillation for the pendulum.
Mount Everest at 8,848meters
The level of oxygen decreases on high mountains because the air pressure decreases as altitude increases. This decrease in air pressure results in lower oxygen content for each breath taken at high elevations, making it harder for the body to get enough oxygen.
When a dome forms high above sea level