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An extension E/F is '''normal''' if E is the splitting field of some polynomial in F[x].
 
An extension E/F is '''normal''' if E is the splitting field of some polynomial in F[x].
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An extension is '''Galois''' if it's normal and the polynomial was separable (no repeated roots).
 
An extension is '''Galois''' if it's normal and the polynomial was separable (no repeated roots).

Revision as of 19:22, 29 April 2009


Euclid a = qb + r with 0 <= r < b where a,b,q,r are integers

--ERaymond 12:26 29 January 2009 (UTC)

GCD: The greatest common divisor of two nonzero integers a and b is the largest of all common divisors of a and b.

LCM: The least common multiple of two nonzero integers a and b is the smallest positive integer that is a multiple of both a and b.

--Jmcdorma 12:16, 5 February 2009 (UTC)

Monomorphism: morphism for which phi(g) = phi(g') happens only if g = g'. (injective)

Epimorphism: morphism for which every element in target group H is hit. (surjective)

Isomorphism: morphism that is both injective and surjective.

The kernel of a morphism is the collection of elements in G that satisfy phi(g) = 1_H

An inner automorphism, Inn(G), is always attached to some group element written ϕ_{a} for the following morphism from G to itself: ϕ_{a}(g)=aga⁻¹


If m and n are coprime, then Z_mn is isomorphic to Z_m x Z_n

The stabilizer of a point P is the set of elements in a group G of permutations that keep P in the same place; it is a subgroup of G.

The orbit of a point P is the set of all points to which P can be moved using an element of a group G of permutations.


Let E = F(e_1,e_2,...,e_t) be a field extension. Any element e in E for which F(e) = F(e_1,...,e_t) is a primitive element of E over F.


An extension E/F is normal if E is the splitting field of some polynomial in F[x].

An extension is Galois if it's normal and the polynomial was separable (no repeated roots).

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Basic linear algebra uncovers and clarifies very important geometry and algebra.

Dr. Paul Garrett