3.2 Integral Domains and Fields
1.
a. 1, − 4.
c. 0, 1.
3. If e2 = e in a domain, then e(1 − e) = 0 so e = 0 or e = 1. If an = 0, n ≥ 1, then a = 0. For if a ≠ 0 then aan−1 = 0 gives an−1 = 0, . . ., and eventually a = 0, a contradiction.
5. Let 
. Then A2 = 0 but A ≠ 0. So Mn(R) is not a domain.
. Then A2 = 0 but A ≠ 0. So Mn(R) is not a domain.
7. If ab = 0 then (ba)2 = b(ab)a = 0, so ba = 0 by hypothesis.
9. In 
, 12 + 22 = 0; in 
, let a2 + b2 = 0. If either a = 0 or b = 0, the other is 0 (x2 = 0 ⇒ x = 0 in a field). If a ≠ 0, b ≠ 0 then a, b 
{1, 2}. But 12 + 12 ≠ 0, 12 + 22 = 2 ≠ 0, 22 + 22 = 3 ≠ 0.
, 12 + 22 = 0; in , let a2 + b2 = 0. If either a = 0 or b = 0, the other is 0 (x2 = 0 ⇒ x = 0 in a field). If a ≠ 0, b ≠ 0 then a, b {1, 2}. But 12 + 12 ≠ 0, 12 + 22 = 2 ≠ 0, 22 + 22 = 3 ≠ 0.
11. The group F∗ = F {0} has order q − 1 so aq−1 = 1 for all a ≠ 0 (by Lagrange's theorem). Thus aq = a if a ≠ 0; this also holds if a = 0.
13. Since |F| = p is prime, (F, +) is cyclic and is generated by 1 (or any nonzero element) by Lagrange's theorem. Hence the map 
given by 
is an isomorphism of additive groups. It is a ring isomorphism ...
given by is an isomorphism of additive groups. It is a ring isomorphism ...Get Introduction to Abstract Algebra, Solutions Manual, 4th Edition now with the O’Reilly learning platform.
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