Question

B. Let p and q be distinct positive prime numbers. Set a p+ (a) Find a monic polynomial f(x) EQlr of degree 4 such that f(a) 0. (b) Explain why part (a) shows that (Q(a):QS4 (c) Note: In order to be sure that IQ(α) : Q-4, we would need to know that f is irreducible. (Do not attempt it, though). Is it enough to show that f(x) has no rational roots? (d) Show V pg E Q(α). Does it follow that Q(VRI) 0(α)? Why? (e) Show, α#0(VN). (f) [Q(α) : Q(v/P 2, [QWpo : Q] = ?" [Q(α) : Q]·?. Explain your reasoning. (Do not take for granted the fact that IQ(α) : Ql-4-you need to prove it. Rather than trying to show that (x) is irreducible, look at the field extensions: If you know that (QwA): Q-2 and IQ(α) : Q] possible to have [Q(α) : QW )]-?) 4, what can you say about IQ(α) : Q(vryl? Is it (g) Show that afQ(Vp). (Proceed by contradiction.) (h) Show that (Q(v.)Q4. (Use a similar approach as above. Consider the field extensions: Then explain why [QWP) : Q] = 2 and [QWp, vq) : Q(Vi)-2.) i) Note that VS QPv Why? Then show QP.va) ea

Answer 1

Given p, q are distinct prime alpha = squareroot p + squareroot 2 let x = squareroot 9 + squareroot 2 (x - squaerroot p) = squareroot q x^2 + p - q = 2x squareroot p (x^2 + p - q)^2 = (2x squareroot P)^2 x^4 + b^2 + q^2 - 2pq = 0 x^4 - 2(p + q) x^2 + (p - q)^2 = 0 f(x) = x^4 - 2(p + q) x^2 + (p - q)^2 elementof Q [x] and f(alpha) = 0 we know that [theta (alpaha): Q] lessthanorequalto degree degree of f(x) s.t f()alpha) = theta as squareroot p + squareroot q not elementof Q \r\n and Q (squareroot p + squareroot q) = Q (squareroot p + squareroot q) as p notequalto q prime So [Q (squareroot b + squareroot q): Q] [Q(squareroot.15, squareroot q) Q] lessthanorequalto [theta (squareroot p, squareroot 2): Q (squareroot b)] [Q (squareroot p): theta]