Let V Be An Inner Product Space And Let W Be A Subspace Of V The Orthogonal Comp
Let V be an inner product space and let W be a subspace of V . The orthogonal complement of W in V is the set W⊥ = v ∈ V | hv, wi = 0 for all w ∈ W .
Prove the following:
a) W⊥ is a subspace of V .
b) W⊥ ∩ W = {0}. That is, the only vector they have in common is the zero vector.
Hint: For the second statement, assume that there is a vector W not equal to 0 that is common to both. Show that this leads to something that we know to be impossible, and therefore such a W cannot exist. This method is called a proof by contradiction.
"Looking for a Similar Assignment? Get Expert Help at an Amazing Discount!"
