Anton Akhmerov · a76cf05a · 984eb60e · 3ecd0232 · eb9c2ad0 · 4be3d324
--- a/src/lecture_2.md

+ 2

− 2
+++ b/src/lecture_2.md

+ 2

− 2
 @@ -92,8 +92,8 @@ While most materials have $R_{\rm H}>0$, interestingly some materials are found
    After this lecture you will be able to:
    
    - calculate the electron density of states in 1D, 2D, and 3D using the Sommerfeld free-electron model.
-    - express the number and energy of particles in a system using integrals over k-space.
-    - use the Fermi function to extend the previous learning goal to finite T.
+    - express the number and energy of particles in a system in terms of integrals over k-space.
+    - use the Fermi distribution to extend the previous learning goal to finite T.
    - calculate the electron contribution to the specific heat of a solid.
    - describe central terms such as the Fermi energy, Fermi temperature, and Fermi wavevector.