X-Git-Url: https://hackdaworld.org/gitweb/?p=lectures%2Flatex.git;a=blobdiff_plain;f=solid_state_physics%2Ftutorial%2F2_03.tex;h=e268709d862e4d0372e1b6c5c3ac5882c7503659;hp=c33fe435ab15dd6771439425d4dd13816bc223d9;hb=183bd2b78445842ee859e2f10f8ab9dc84cf2776;hpb=633db250e42a5724c851597ee938cfa93df0665b

diff --git a/solid_state_physics/tutorial/2_03.tex b/solid_state_physics/tutorial/2_03.tex
index c33fe43..e268709 100644
--- a/solid_state_physics/tutorial/2_03.tex
+++ b/solid_state_physics/tutorial/2_03.tex
@@ -161,7 +161,7 @@ w=\frac{1}{V}\frac{\sum_i E_i \exp(-\beta E_i)}{\sum_i \exp(-\beta E_i)}.
        Evaluate the simplified integral and introduce the
        Debye frequency $\omega_{\text{D}}=k_{\text{D}}c$
        and the Debye temperature $\Theta_{\text{D}}$ which is given by
-       $\Theta_{\text{D}}=\hbar\omega_{\text{D}}$.
+       $k_{\text{B}}\Theta_{\text{D}}=\hbar\omega_{\text{D}}$.
        Write down the resulting expression for the specific heat.
 \end{enumerate}