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.
Air near Earth's surface is denser due to the weight of the air above it pressing down, creating higher pressure. Additionally, higher temperatures near the surface cause air molecules to move more rapidly, spreading out less and increasing air density.
Most of the Earth's atmosphere is concentrated near the surface due to gravity. The force of gravity pulls air molecules towards the Earth, making the air denser at lower altitudes. As you move higher in the atmosphere, the air becomes less dense because there are fewer air molecules present.
Air pressure decreases as you move away from Earth's surface. This is because the weight of air above you becomes less as you move higher in the atmosphere, resulting in lower air pressure at higher altitudes.
The velocity parallel to Earth's surface can vary depending on the location and purpose. For a person walking or running on Earth's surface, the velocity can range from 0 m/s to a few meters per second. However, for objects in Earth's orbit, the velocity parallel to the surface can be much higher, reaching several kilometers per second.
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.
The surface gravity of Neptune is approximately 11.15 m/s^2, which is slightly higher than Earth's gravity. This means that objects on Neptune's surface would feel heavier compared to Earth.
Air near Earth's surface is denser due to the weight of the air above it pressing down, creating higher pressure. Additionally, higher temperatures near the surface cause air molecules to move more rapidly, spreading out less and increasing air density.
because of 0 gravity
You can jump higher on the surface of the moon because it has weaker gravity compared to Earth. The gravitational pull of the moon is about one-sixth that of Earth, so you can overcome it more easily to jump higher.
Air pressure decreases with altitude because the weight of the air above is lessened, leading to fewer air molecules exerting pressure per unit area. This decrease in pressure is due to lower air density at higher altitudes.
The Moon has less gravity than Earth, about 1/6th of Earth's gravity. This means that your weight on the Moon would be much less, making it easier to jump higher and move around. To stand on the Moon, you would need to wear a spacesuit to protect yourself from the harsh environment.
The air is thinner the higher you go.
because its hard to breathe thin air above earths surface, the higher you go its hard to breathe oxygen.
Yes, gravity is weaker the higher you are located above the surface of the Earth. This is because the gravitational force between two objects decreases with increasing distance.
A basin
This question is probably about the strength of the "surface gravity" of the planets. "Jupiter" is the obvious answer. It has a surface gravity about 2.5 times Earth's. Neptune also has a higher surface gravity than Earth. (Sometimes Saturn is given as another example, but it depends on the exact definition of "surface gravity".)