Light scattering by particles: Difference between revisions
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In [[physics]], the term '''total pressure''' may indicate two different quantities, both having the dimensions of a [[pressure]]: | |||
* In [[fluid dynamics]], ''total pressure'' (<math>p_0</math>) refers to the sum of [[static pressure]] p, [[dynamic pressure]] q, and gravitational head, as expressed by [[Bernoulli's_principle#Incompressible_flow_equation|Bernoulli's principle]]: | |||
:<math>p_0 = p + q + \rho g z\,</math> | |||
:where ρ is the density of the fluid, g is the local acceleration due to gravity, and z is the height above a datum. | |||
:If the variation in height above the datum is zero, or so small it can be ignored, the above equation reduces to the following simplified form: | |||
:<math>p_0 = p + q\,</math> | |||
* In a mixture of [[ideal gas]]es, ''total pressure'' refers to the sum of each gas' [[partial pressure]]. | |||
[[Category:Pressure]] | |||
[[Category:Fluid dynamics]] | |||
[[Category:Gases]] | |||
Revision as of 23:46, 19 June 2013
In physics, the term total pressure may indicate two different quantities, both having the dimensions of a pressure:
- In fluid dynamics, total pressure () refers to the sum of static pressure p, dynamic pressure q, and gravitational head, as expressed by Bernoulli's principle:
- where ρ is the density of the fluid, g is the local acceleration due to gravity, and z is the height above a datum.
- If the variation in height above the datum is zero, or so small it can be ignored, the above equation reduces to the following simplified form:
- In a mixture of ideal gases, total pressure refers to the sum of each gas' partial pressure.