(A) Prove that over the field C, that Q(i) and Q(sqrt(2)) are isomorphic as vector spaces....

(A) Prove that over the field C, that Q(i) and Q(2) are isomorphic as vector spaces?...

(A) Prove that over the field C, that Q(i) and Q(2) are isomorphic as vector spaces? (B) Prove that over the field C, that Q(i) and Q(2) are not isomorphic as fields?

Prove that Q(sqrt(2)) is a field using the fact that sqrt(2) is not in Q.

Prove that Q(sqrt(2)) is a field using the fact that sqrt(2) is not in Q.

2. Determine whether the following pairs of vector spaces are isomorphic. If so, give an explicit...

2. Determine whether the following pairs of vector spaces are isomorphic. If so, give an explicit isomorphism (you must show that it is indeed an isomorphism); if not, state why not. a) R5 and P5 b) P8 and Mat33(R) c) {f ∈ P4 | f(2) = 0} and {(x1,...,x6) ∈ R6 | x1 = x4 = x5}

prove that for all a,b in Q, Q(sqrt(a),sqrt(b))=Q(sqrt(a)+sqrt(b)).

prove that for all a,b in Q, Q(sqrt(a),sqrt(b))=Q(sqrt(a)+sqrt(b)).

Let K be a field. Show that the category of vector spaces over K is an...

Let K be a field. Show that the category of vector spaces over K is an Abelian category.

How is this possible? (in other words, why are the powers different) K= Q( i, sqrt(2))...

How is this possible? (in other words, why are the powers different) K= Q( i, sqrt(2)) is the root field over Q of x^4 - 2x^2 + 9, and it's the root field over Q(sqrt(2) of x^2 - 2(sqrt(2))x + 3

Find a basis for each of the following vector spaces and find its dimension (justify): (a)...

Find a basis for each of the following vector spaces and find its dimension (justify): (a) Q[ √3 2] over Q (b) Q[i, √ 5] (that is, Q[i][√ 5]) over Q;

5.1.5. Suppose V1, V2, W are vector spaces over F. Prove that f : V1 ×...

5.1.5. Suppose V1, V2, W are vector spaces over F. Prove that f : V1 × V2 → W is the zero map if and only if f is both linear and bilinear.

For each of the following, determine whether it is a vector space over the given field....

For each of the following, determine whether it is a vector space over the given field. (i) The set of 2 × 2 matrices of real numbers, over R. (ii) The set of 2 × 2 matrices of real numbers, over C. (iii) The set of 2 × 2 matrices of real numbers, over Q.

Q 1 Determine whether the following are real vector spaces. a) The set C with the...

Q 1 Determine whether the following are real vector spaces. a) The set C with the usual addition of complex numbers and multiplication by R ⊂ C. b) The set R2 with the two operations + and · defined by (x1, y1) + (x2, y2) = (x1 + x2 + 1, y1 + y2 + 1), r · (x1, y1) = (rx1, ry1)