Revision as of 13:38, 12 March 2026

Piston Model

KW94 Piston Model

Here we draw principally from the discussion of a simple piston model as presented in §2.7 and §6.6 of [KW94].

An ideal gas of mass $m^{*}$ is held in a vertical container with a movable piston resting on top of — and confining — the gas; the mass of the piston is $M^{*}$ . A vertically directed gravitational acceleration, $g$ , acts on the piston, in which case the weight of the piston is given by the expression,

G^{*} = g M^{*} .

"In the case of hydrostatic equilibrium, the gas pressure $P$ adjusts in such a way that the weight per unit area is balanced by the pressure:"

P = \frac{G^{*}}{A} .

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 <font size="-1">[[H_BookTiledMenu#Context|<b>KW94<br />Piston Model</b>]]</font>
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 Here we draw principally from the discussion of a simple piston model as presented in &sect;2.7 and &sect;6.6 of [<b>[[Appendix/References#KW94|<font color="red">KW94</font>]]</b>].
+An ''[[SR#Time-Independent_Problems|ideal gas]]'' of mass <math>m^*</math> is held in a vertical container with a movable piston resting on top of &#8212; and confining &#8212; the gas; the mass of the piston is <math>M^*</math>.  A vertically directed gravitational acceleration, <math>g</math>, acts on the piston, in which case the weight of the piston is given by the expression,
+<div align="center"><math>G^* = g M^*.</math></div>
+<font color="darkgreen">"In the case of hydrostatic equilibrium, the gas pressure <math>P</math> adjusts in such a way that the weight per unit area is balanced by the pressure:"</font>
+<div align="center"><math>P = \frac{G^*}{A}.</math></div>
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Revision as of 13:38, 12 March 2026

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Piston Model

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SR/Piston: Difference between revisions

Revision as of 13:38, 12 March 2026

Piston Model

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