Prove that the unit groups  U(8) and U(12) are isomorphic.

Let G1 and G2 be groups. Prove that G1 × G2 is isomorphic to G2 ×...

Let G1 and G2 be groups. Prove that G1 × G2 is isomorphic to G2 × G1 (abstract algebra)

Let G1 and G2 be isomorphic groups. Prove each of the following. -- If G1 is...

Let G1 and G2 be isomorphic groups. Prove each of the following. -- If G1 is Abelian, then G2 must be Abelian. -- If G1 is cyclic, then G2 must be cyclic.

Let G1 and G2 be isomorphic groups. Prove that if G1 has a subgroup of order...

Let G1 and G2 be isomorphic groups. Prove that if G1 has a subgroup of order n, then G2 has a subgroup of order n

Find four groups of order 12 and show that no two are isomorphic to each other.

Find four groups of order 12 and show that no two are isomorphic to each other.

Which of the following groups of order 8 are isomorphic: D4, Q8, Z/8Z, Z/4Z × Z/2Z,...

Which of the following groups of order 8 are isomorphic: D4, Q8, Z/8Z, Z/4Z × Z/2Z, Z/2Z × Z/2Z × Z/2Z.

Prove that rigid symmetries of a cube is isomorphic to S4.

Prove that rigid symmetries of a cube is isomorphic to S4.

Let G and G′ be two isomorphic groups that have a unique normal subgroup of a...

Let G and G′ be two isomorphic groups that have a unique normal subgroup of a given order n, H and H′. Show that the quotient groups G/H and G′/H′ are isomorphic.

Find all pairwise non isomorphic abelian groups of order 2000, as direct product of cyclic groups.

Find all pairwise non isomorphic abelian groups of order 2000, as direct product of cyclic groups.

(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?

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