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
Air pressure decreases as altitude increases.
There is a negative correlation between precipitation rate and atmospheric pressure. As atmospheric pressure decreases, it usually indicates a low-pressure system approaching, which can lead to rising air and ultimately increased chances of precipitation. Conversely, higher atmospheric pressure tends to be associated with clearer skies and lower chances of precipitation.
Humidity and pressure in the atmosphere are inversely related. As humidity increases, the pressure tends to decrease, and vice versa. This is because water vapor in the air affects the density of the air, which in turn impacts the atmospheric pressure.
As altitude increases, the air pressure and temperature decrease. This leads to water vapor in the air condensing into liquid water or ice at higher altitudes. Conversely, at lower altitudes where the air is warmer and pressure is higher, water vapor is more likely to remain in its gaseous state.
The boundaries between atmospheric layers are determined by changes in temperature and composition. For example, the boundary between the troposphere and stratosphere is defined by the tropopause, where temperature begins to increase with altitude. The boundaries between layers are also influenced by the mixing of gases and other atmospheric properties.
As altitude increases (i.e. when you get higher) pressure falls off inversely; a change near the higher reaches will not have as much of a pressure differential as the same distance change lower down.
The relationship between altitude and air pressure is inverse: as altitude increases, air pressure decreases. This is because air pressure is a measure of the weight of air molecules above a given point, so as you go higher in the atmosphere, there are fewer air molecules above you exerting pressure downward.
An inverse relationship.
Air pressure decreases as altitude increases.
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.
Boiling point is dependent on air pressure. Air pressure is dependent on altitude. Durban is coastal, almost sea level. Johannesburg is inland, quite a bit higher. High altitude = low air pressure = low boiling point.
Atmospheric pressure is the pressure exerted by the weight of the atmosphere above a given point, while water pressure is the force exerted by water on an object or surface due to the depth of the water. Atmospheric pressure decreases with altitude, while water pressure increases with depth.
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.
Gauge pressure is the pressure measured relative to atmospheric pressure, while atmospheric pressure is the pressure exerted by the Earth's atmosphere on a surface. Gauge pressure accounts for atmospheric pressure, while atmospheric pressure is the total pressure exerted by the atmosphere.