Difference between revisions of "Atmospheric Pressure"
(→About Atmospheric Pressure) |
|||
| Line 7: | Line 7: | ||
: The '''atmospheric pressure''' at [[Sea Level|sea level]] is 101,000Pa. | : The '''atmospheric pressure''' at [[Sea Level|sea level]] is 101,000Pa. | ||
: The [[force]] responsible for '''atmospheric pressure''' is the [[weight]] of all the [[particle]]s above the [[object]]. | : The [[force]] responsible for '''atmospheric pressure''' is the [[weight]] of all the [[particle]]s above the [[object]]. | ||
| + | |||
| + | ===Variation with Height=== | ||
| + | : As the height of an [[object]] increases the '''atmospheric pressure''' decreases. | ||
| + | : [[Fluid Pressure|Pressure]] in a [[fluid]] is due to the [[weight]] of the [[fluid]] above the [[object]]. As an [[object]] gets higher, there is less [[atmosphere]] above that [[object]]. | ||
| + | : The reduction in [[pressure]] is related to the [[density]] and motion of [[particle]]s in the [[atmosphere]]. | ||
| + | At higher [[altitude]]s: | ||
| + | *The [[atmosphere]] is less [[density|dense]] - Less frequent [[collision]]s between the [[particle]]s and the surface of the [[object]]. | ||
| + | *The [[temperature]] is colder - [[Particle]]s move more slowly leading to less [[collision]]s and the [[collision]]s which do happen occur with less [[force]]. | ||
Revision as of 14:37, 11 February 2019
Key Stage 3
Meaning
Atmospheric Pressure is the pressure on an object due to the particles of gas in the atmosphere colliding with the object.
About Atmospheric Pressure
- Atmospheric Pressure changes with height above the Earths surface. The higher up, the lower the pressure.
- The atmospheric pressure at sea level is 101,000Pa.
- The force responsible for atmospheric pressure is the weight of all the particles above the object.
Variation with Height
- As the height of an object increases the atmospheric pressure decreases.
- Pressure in a fluid is due to the weight of the fluid above the object. As an object gets higher, there is less atmosphere above that object.
- The reduction in pressure is related to the density and motion of particles in the atmosphere.
At higher altitudes:
- The atmosphere is less dense - Less frequent collisions between the particles and the surface of the object.
- The temperature is colder - Particles move more slowly leading to less collisions and the collisions which do happen occur with less force.