Basis and dimension on complex vector spaces
Find the dimension of and a basis for the following subspaces of C^3:
(i) The set of all complex multiples of (1,i,1-i)
(ii) The plane z1+z2+(1-i)z3=0
(iii) The range of the matrix A with rows (1,i,2-i) and (2+i, 1+3i, -1-i)
(iv) The kernel of the same matrix.
(v) The set of vectors that are orthogonal to (1-i, 2i, 1+i).
Please help. I am a bit confused.
Re: Basis and dimension on complex vector spaces
*Presumably*, given your title and the implicit assumption when things are stated this way,
by the vector space , you mean the vector space over the base field
For (i) maybe this is a case where abstraction clarifies rather than confuses? Maybe it removes the the jumble formed by the specific values?
Suppose I tell you I have a vector space V over a field F. Suppose I give you a fixed vector in V, and ask you to find a basis and the dimension of the subspace formed by all F-multiples of that vector:
You do everything *exactly* as you would for a real vector space, except now the coefficients are allowed to be complex numbers. That goes not just for problem (i), but for all 5 problems. Ask yourself, "How would I do the same problem, except for a real vctor space using real coefficients?" If you can answer that, then you should be able to solve these. Every procedure is *exactly* the same, except that here it uses complex coefficients.