the relationship between atmospheric pressure and altitude is the higher you go, the lesser the atmospheric pressure becomes. if the air above you is less, then there is less weight being pressed upon the air you are on.
anonymous boy from small heath school y8 2011
the relationship between atmospheric pressure and altitude is the higher you go, the lesser the atmospheric pressure becomes. if the air above you is less, then there is less weight being pressed upon the air you are on.
anonymous boy from small heath school y8 2011
Here's some definitions for you:
Altitude is simply how far you are up from the sea level, sea level has a altitude of 0, elevation does relate to altitude because when you have a elevation of 700ft, in a way, you can say you have an altitude of 700ft of your reference point (sea level).
Atmospheric Pressure by definition means the pressure exerted by the weight of the atmosphere.
I suppose hypothetically speaking, both of these relate to the atmosphere.
Air pressure decreases as altitude increases.
The correlation between precipitation rate and level of atmospheric pressure is very apparent. As atmospheric pressure decreases, the amount and intensity of precipitation increases.
as altitude inscreases, water vapor level decreases
The higher you go, the lesser the air pressure becomes. This can be logically understood. Atmospheric air pressure is caused by the weight of the air above it. At greater heights, the amount of air above you is less, so there is less weight pressing on the air you are in. This is the reason why the atmospheric pressure is higher at the sea-levels and lower at mountains and places of high altitudes.
as altitude increases temperature decreases
Air pressure decreases as altitude increases.
An inverse relationship.
Its known as either a temperature lapse or a temperature inversion. Hope this helps! :)
As atmospheric pressure increase so does the boiling pont, when atmos. pressure decreases so does boiling point. A liquid boils when its vapor pressure equals atmospheric pressure.
The deeper you go, the more air is above you ... thus higher air pressure.
The Marcet Boiler is used to investigate the relationship between the pressure and temperature of saturated steam in equilibrium with water at all pressure levels between the atmospheric pressure and 1100 kPa.
No, it is the DIFFERENCE between the true and atmospheric pressures.
As air pressure in an area increases, the density of the gas particles in that area decreases.
The correlation between precipitation rate and level of atmospheric pressure is very apparent. As atmospheric pressure decreases, the amount and intensity of precipitation increases.
Science!
Atmospheric pressure is the surrounding pressure around us. We live in the atmosphere and treat the atmospheric pressure as the base pressure. A pressure gauge would read 0 at atmospheric pressure. When we define the pressure in scientific way of absolute pressure, we need to add up an atmospheric pressure to the measured pressure.
A: There is a direct relationship between altitude and temperature. As altitude increases there is less air available to remove the dissipated heat therefore locally the temperature rises but environment temperature as a whole decreases. I don't see any relationship with any noise with altitude