We observe that

$ |f+g|^p \leq (2 \ max \left\{ |f|,|g| \right\} )^p \leq 2^p (|f|^p + |g|^p) $,

which of course implies that

$ ||f+g||_p \leq 2(||f||_p^p + ||g||_p^p)^\frac{1}{p} < \infty $.

If you're short on time during the qual, an alternative (but slightly cheeky, since it's circular) proof is to recall that $ L^p $ spaces are vector spaces.

Alumni Liaison

Basic linear algebra uncovers and clarifies very important geometry and algebra.

Dr. Paul Garrett