This homework assignment is due Thursday, January 31, in class.
Hatcher Section 1.1, p.38 # 1, 5, 8, 11, 16. Section 1.2 # 3, 4, 8, 19.
Then
A. Let \( f: (X,x) \to (Y,y) \) be a continuous map. Show that the induced map \( f_\ast: \pi_1(X, x) \to \pi_1(Y,y) \) is a group homomorphism. (After some comments made in class, it suffices to prove that for loops \(\phi\) and \(\psi\), we have the equality of maps/loops \( f(\phi\cdot\psi) = f(\phi)\cdot f(\psi) \)
B. Let \( (X,x) \xrightarrow{f} (Y,y) \xrightarrow{g} (Z,z) \) be maps. Show that the induced maps \( \pi_1(X,x) \xrightarrow{f_\ast} \pi_1(Y,y) \xrightarrow{g_\ast} \pi_1(Z,z) \) satisfy \(g_\ast \circ f_\ast = (g\circ f)_\ast \)
C. For any pointed space \((X,x)\), show that \((\mathrm{id}_X)_\ast = \mathrm{id}_{\pi_1(X,x)} \)
D. Classify the letters A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z up to homotopy type. Little justification is needed.