In mathematics, especially in the area of algebra known as module theory, Schanuel's lemma, named after Stephen Schanuel, allows one to compare how far modules depart from being projective.
It is useful in defining the Heller operator in the stable category, and in giving elementary descriptions of dimension shifting.
Schanuel's lemma is the following statement: Let R be a ring with identity.
If 0 → K → P → M → 0 and 0 → K′ → P′ → M → 0 are short exact sequences of R-modules and P and P′ are projective, then K ⊕ P′ is isomorphic to K′ ⊕ P. Define the following submodule of
ϕ :
is defined as the projection of the first coordinate of
Now examine the kernel of the map
: We may conclude that there is a short exact sequence Since
is projective this sequence splits, so
Similarly, we can write another map
, and the same argument as above shows that there is another short exact sequence and so
Combining the two equivalences for
gives the desired result.
The above argument may also be generalized to long exact sequences.
[1] Stephen Schanuel discovered the argument in Irving Kaplansky's homological algebra course at the University of Chicago in Autumn of 1958.
Kaplansky writes: