trees can't survive on a mountain beacuase trees need carbon dioxide and because the most mamamls don't live in the mountains because of low oxgen levels there is less carbon dioxide. As a result, there wouldn't be mush gas exchange and the tree most likely would die. People who live in the mountains have more
Air pressure would be greater at sea level, so it would be greater at the beach compared to the top of a mountain. This is because the weight of the air above exerts more pressure at lower elevations.
The higher the pressure being exerted on the water, the lower the boiling point becomes. Yes the boiling point is affected in a pressurized system. If you put water in a sealed container and kept raising the pressure it will eventually reach it's boiling point without the need of adding heat.
Climate is affected by elevation because higher elevations generally have cooler temperatures due to decreased air pressure, which causes the air to expand and cool as it rises. This leads to changes in precipitation patterns and the types of vegetation that can grow at different elevations. In general, as elevation increases, climate becomes colder, windier, and wetter.
The boiling point of water decreases at higher elevations where atmospheric pressure is lower. This is because the lower pressure makes it easier for water molecules to escape into the air, requiring less energy to reach the boiling point.
No, air pressure is not greater at mountains than at sea level; it is actually lower. As altitude increases, the density of the air decreases, resulting in reduced air pressure. Therefore, at sea level, air pressure is higher compared to that at higher elevations like mountains.
At high altitudes, atmospheric pressure is lower. Therefore, the partial pressure (partial oxygen) is lower. As partial pressure of oxygen goes down, the body's desire for oxygen goes up.
At high altitudes, atmospheric pressure is lower. Therefore, the partial pressure (partial oxygen) is lower. As partial pressure of oxygen goes down, the body's desire for oxygen goes up.
No, it is greater at the lower elevations.
No, it is greater at the lower elevations.
A valley typically has higher pressure compared to a mountain. This is because air tends to sink into valleys due to gravity, leading to slightly higher air pressure at lower elevations. In contrast, mountains have lower air pressure at higher elevations due to the thinner atmosphere.
Air pressure decreases with altitude because there are fewer air molecules at higher elevations. As you climb a high mountain, the weight of the air above you decreases, resulting in lower air pressure.
trees can't survive on a mountain beacuase trees need carbon dioxide and because the most mamamls don't live in the mountains because of low oxgen levels there is less carbon dioxide. As a result, there wouldn't be mush gas exchange and the tree most likely would die. People who live in the mountains have more
Surface elevation can affect air pressure, which in turn influences the amount of water vapor the air can hold. Higher elevations typically have lower pressure and cooler temperatures, leading to lower water vapor capacity. This can result in drier and less humid conditions at higher elevations compared to lower elevations.
The air pressure is greater at the base of the mountain compared to the peak. This is because the weight of the column of air above decreases as you move higher up in the atmosphere, leading to lower air pressure at higher elevations.
The temperature changes as you go up a mountain due to the reduction in atmospheric pressure with increasing altitude. This drop in pressure causes the air to expand and cool, resulting in colder temperatures at higher elevations.
The top of a mountain has lower air pressure, not greater air pressure, compared to lower elevations. This is because the higher you go in elevation, the thinner the atmosphere becomes, leading to lower air pressure due to decreased atmospheric density.
Actually, the reason there isn't less oxygen at higher elevations. The reason it is harder to breathe is because the partial pressure of oxygen is much lower at higher elevations, preventing gas exchange of oxygen with the tissues in your body.