The Stacks project

Lemma 13.9.3. Suppose that $f: K^\bullet \to L^\bullet $ and $g : L^\bullet \to M^\bullet $ are morphisms of complexes such that $g \circ f$ is homotopic to zero. Then

  1. $g$ factors through a morphism $C(f)^\bullet \to M^\bullet $, and

  2. $f$ factors through a morphism $K^\bullet \to C(g)^\bullet [-1]$.

Proof. The assumptions say that the diagram

\[ \xymatrix{ K^\bullet \ar[r]_ f \ar[d] & L^\bullet \ar[d]^ g \\ 0 \ar[r] & M^\bullet } \]

commutes up to homotopy. Since the cone on $0 \to M^\bullet $ is $M^\bullet $ the map $C(f)^\bullet \to C(0 \to M^\bullet ) = M^\bullet $ of Lemma 13.9.2 is the map in (1). The cone on $K^\bullet \to 0$ is $K^\bullet [1]$ and applying Lemma 13.9.2 gives a map $K^\bullet [1] \to C(g)^\bullet $. Applying $[-1]$ we obtain the map in (2). $\square$

Comments (1)

Comment #291 by arp on

Just a remark: this lemma is a special case of Lemma 13.8.2 (TAG 014F), namely take for , for , and .

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View Lemma 13.9.3 as pdf