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Theoretical
Theoretical
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We know that $PV^{\gamma}=\rm constant $$PV^{\gamma}=constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=\rm constant$$PV^{\gamma}=constant$ and $PV=\rm constant$$PV=constant$ be true at the same time? (When $T$ is cconstant)

We know that $PV^{\gamma}=\rm constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=\rm constant$ and $PV=\rm constant$ be true at the same time?

We know that $PV^{\gamma}=constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=constant$ and $PV=constant$ be true at the same time? (When $T$ is cconstant)

italics in mathjax aren't nice for complete words
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user191954
user191954

We know that $PV^{\gamma}=constant $$PV^{\gamma}=\rm constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=constant$$PV^{\gamma}=\rm constant$ and $PV=constant$$PV=\rm constant$ be true at the same time?

We know that $PV^{\gamma}=constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=constant$ and $PV=constant$ be true at the same time?

We know that $PV^{\gamma}=\rm constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=\rm constant$ and $PV=\rm constant$ be true at the same time?

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edit approved Oct 23, 2018 at 14:42
Mechanic
edit approved Oct 23, 2018 at 14:42
Mechanic
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Combined gas equation in adiabeticadiabatic process

We know that $PV^{\gamma}=constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabeticadiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=constant$ and $PV=constant$ be true at the same time?

Combined gas equation in adiabetic process

We know that $PV^{\gamma}=constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabetic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=constant$ and $PV=constant$ be true at the same time?

Combined gas equation in adiabatic process

We know that $PV^{\gamma}=constant $. There are also 2 more equations which relates $P$ & $T$ and $V$ & $R$. Is there any equation which relates all these 3 things like ideal gas equation?

Also does the adiabatic process obey the ideal gas equation? How can this be? How can $PV^{\gamma}=constant$ and $PV=constant$ be true at the same time?

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Theoretical
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