diff --git a/docs/7_tight_binding_model_solutions.md b/docs/7_tight_binding_model_solutions.md
index d4eae851f29e52c612d32726dc0baf44fa65e45a..02ac19800a5c702d530e93427f57c4e4874f09f3 100644
--- a/docs/7_tight_binding_model_solutions.md
+++ b/docs/7_tight_binding_model_solutions.md
@@ -80,8 +80,8 @@ k = np.linspace(-pi+0.01, pi-0.01, 300)
 pyplot.plot(k[0:149], np.sin(k[0:149])/(np.sqrt(1-np.cos(k[0:149]))),'b');
 pyplot.plot(k[150:300], np.sin(k[150:300])/(np.sqrt(1-np.cos(k[150:300]))),'b');
 pyplot.xlabel(r'$ka$'); pyplot.ylabel('$v(k)$');
-pyplot.xticks([-pi, 0, pi], [r'$-\pi/2$', 0, r'$\pi/2$']);
-pyplot.yticks([-np.sqrt(2), 0, np.sqrt(2)], [r'$-2\sqrt{\frac{\kappa}{m}}$', 0, r'$2\sqrt{\frac{\kappa}{m}}$']);
+pyplot.xticks([-pi, 0, pi], [r'$-\pi$', 0, r'$\pi$']);
+pyplot.yticks([-np.sqrt(2), 0, np.sqrt(2)], [r'$-a\sqrt{\frac{\kappa}{m}}$', 0, r'$a\sqrt{\frac{\kappa}{m}}$']);
 pyplot.tight_layout();
 
 pyplot.subplot(1,2,2)
@@ -90,7 +90,7 @@ g = 1/np.sqrt(1-w**2);
 pyplot.plot(w, g, 'b');
 pyplot.xlabel(r'$\omega$'); pyplot.ylabel('$g(w)$');
 pyplot.xticks([0, 1], [0, r'$2\sqrt{\frac{k}{m}}$']);
-pyplot.yticks([0.5, 1], [0, r'$\frac{L}{2\pi a}\sqrt{\frac{\kappa}{m}}$']);
+pyplot.yticks([0.5, 1], [0, r'$\frac{L}{\pi a}\sqrt{\frac{m}{\kappa}}$']);
 pyplot.tight_layout();
 ```