Specific heat: Difference between revisions

Revision as of 07:00, 30 March 2026

For thermally perfect and calorically perfect gases

\begin{matrix} C_{p} = \frac{d h}{d T} \\ C_{v} = \frac{d e}{d T} \end{matrix}

(Eq. 1.8)

From the definition of enthalpy and the equation of state $p = ρ R T$

h = e + \frac{p}{ρ} = e + R T

(Eq. 1.9)

Differentiate (Eq. 1.9) with respect to temperature gives

\frac{d h}{d T} = \frac{d e}{d T} + \frac{d (R T)}{d T}

(Eq. 1.10)

Inserting the specific heats gives

C_{p} = C_{v} + R

(Eq. 1.11)

Dividing (Eq. 1.11) by $C_{v}$ gives

\frac{C_{p}}{C_{v}} = 1 + \frac{R}{C_{v}}

(Eq. 1.12)

Introducing the ratio of specific heats defined as

γ = \frac{C_{p}}{C_{v}}

(Eq. 1.13)

Now, inserting (Eq. 1.13) in Eqn. \ref{eq:specificheat:c} gives

C_{v} = \frac{R}{γ - 1}

(Eq. 1.14)

In the same way, dividing (Eq. 1.11) with $C_{p}$ gives

1 = \frac{C_{v}}{C_{p}} + \frac{R}{C_{p}} = \frac{1}{γ} + \frac{R}{C_{p}}

(Eq. 1.15)

and thus

C_{p} = \frac{γ R}{γ - 1}

(Eq. 1.16)

@@ Line 35: / Line 35: @@
 {{NumEqn|<math>
 C_p=C_v+R
-</math>}}
+</math>|label=eq-specific-heat-b}}
-Dividing Eqn. \ref{eq:specificheat:b} by <math>C_v</math> gives
+Dividing {{EquationNote|label=eq-specific-heat-b}} by <math>C_v</math> gives
 {{NumEqn|<math>
 \frac{C_p}{C_v}=1+\frac{R}{C_v}
-</math>}}
+</math>|label=eq-specific-heat-c}}
 Introducing the ratio of specific heats defined as
@@ Line 55: / Line 55: @@
 </math>}}
-In the same way, dividing Eqn. \ref{eq:specificheat:b} with <math>C_p</math> gives
+In the same way, dividing {{EquationNote|label=eq-specific-heat-b}} with <math>C_p</math> gives
 {{NumEqn|<math>