Gas Gesetze

Boyle-Mariotte

$$p\cdot V=konstant$$ $$p_{1}\cdot V_{1}=p_{2}\cdot V_{2}$$

Gay-Lussac

$$\frac{V}{T} =konstant$$ $$\frac{V_{1}}{T_{1}} =\frac{V_{2}}{T_{2}} $$

Amotons

$$\frac{p}{T} =konstant$$ $$\frac{p_{1}}{T_{1}} =\frac{p_{2}}{T_{2}} $$

Ideale Gase

$$\gamma_{ideales\ Gas} =\frac{1}{273,15K} $$ $$\frac{p\cdot V}{T} =konstant$$ $$\frac{p_{1}\cdot V_{1}}{T_{1}} =\frac{p_{2}\cdot V_{2}}{T_{2}}$$ $$p\cdot V=N\cdot k\cdot T$$ $$ N,\ Teilchenanzahl$$ $$ k,\ Proportionalitätsfaktor\ (Boltzmannkonstante)$$ $$\frac{p\cdot V}{T}=n\cdot R$$ $$ R\, Gaskonstante $$ $$R\ =\ 8,314\frac{J}{molK} $$