Prove that every homomorphic image of a finitely generated module is finitely generated.

A direct summand of a finitely generated module is finitely generated.

A direct summand of a finitely generated module is finitely generated.

A finitely generated module is projective if and only if it is a direct summand of...

A finitely generated module is projective if and only if it is a direct summand of a finitely generated free module.

Let R be a ring. Show that R[x] is a finitely generated R[x]-module if and only...

Let R be a ring. Show that R[x] is a finitely generated R[x]-module if and only if R={0}. Show that Q is not a finitely generated Z-module.

Let G be a finitely generated group, and let H be normal subgroup of G. Prove...

Let G be a finitely generated group, and let H be normal subgroup of G. Prove that G/H is finitely generated

Prove that P(R) is not finitely generated over R. Hint: Suppose p1, . . . ,...

Prove that P(R) is not finitely generated over R. Hint: Suppose p1, . . . , pn ∈ P(R). Find p ∈ P(R) such that p /∈ Span{p1, . . . , pn}.

PROVE THE UNION OF FINITELY MANY CLOSED SUBSETS OF R1 IS CLOSED. * PLEASE Include a...

PROVE THE UNION OF FINITELY MANY CLOSED SUBSETS OF R1 IS CLOSED. * PLEASE Include a thorough and complete explanation/ proof. (include "...by definition of..." etc.)

Show (prove) that the set of sequences of 0s and 1s with only finitely many nonzero...

Show (prove) that the set of sequences of 0s and 1s with only finitely many nonzero terms should be countable. Will rate a thumbs up. Thank you.

Prove for each of the following: a. Exercise A union of finitely many or countably many...

Prove for each of the following: a. Exercise A union of finitely many or countably many countable sets is countable. (Hint: Similar) b. Theorem: (Cantor 1874, 1891) R is uncountable. c. Theorem: We write |R| = c the “continuum”. Then c = |P(N)| = 2א0 d. Prove the set I of irrational number is uncountable. (Hint: Contradiction.)

Prove that if every short exact sequence of modules 0-> Q -> M -> N ->...

Prove that if every short exact sequence of modules 0-> Q -> M -> N -> 0 splits then Q is a projective module.

prove that every disc is convex

prove that every disc is convex