Show that the nilpotent elements of a commutative ring form a subring.

Let R be a commutative ring with unity. Let A consist of all elements in A[x]...

Let R be a commutative ring with unity. Let A consist of all elements in A[x] whose constant term is equal to 0. Show that A is a prime ideal of A[x]

Suppose S is a ring with p elements, where p is prime. a)Show that as an...

Suppose S is a ring with p elements, where p is prime. a)Show that as an additive group (ignoring multiplication), S is cyclic. b)Show that S is a commutative group.

Suppose that R is a commutative ring without zero-divisors. Let x and y be nonzero elements....

Suppose that R is a commutative ring without zero-divisors. Let x and y be nonzero elements. 1. Suppose that x has infinite additive order. Show that y also has infinite additive order. 2. Suppose that the additive order of x is n. Show that the additive order of y is at most n. 3.Show that all the nonzero elements of R have the same additive order.

Show that the set of all integers that are multiplies of 3 is a commutative ring....

Show that the set of all integers that are multiplies of 3 is a commutative ring. Does it have an identity?

If R is a commutative ring with unity and A is a proper ideal of R,...

If R is a commutative ring with unity and A is a proper ideal of R, show that R/A is a commutative ring with unity.

Answer b please... Let R be a ring and let Z(R) := {z ∈ R :...

Answer b please... Let R be a ring and let Z(R) := {z ∈ R : zr = rz for all r ∈ R}. (a) Show that Z(R) ≤ R. It is called the centre of R. (b) Let R be the quaternions H = {a+bi+cj+dk : a,b,c,d ∈ R} and let S = {a + bi ∈ H}. Show that S is a commutative subring of H, but there are elements in H that do not commute with elements...

Suppose that R is a commutative ring without unity and also without zero-divisors. Show that the...

Suppose that R is a commutative ring without unity and also without zero-divisors. Show that the characteristic of R is zero or prime.

Let I, M be ideals of the commutative ring R. Show that M is a maximal...

Let I, M be ideals of the commutative ring R. Show that M is a maximal ideal of R if and only if M/I is a maximal ideal of R/I.

Let R be a commutative ring and let a ε R be a non-zero element. Show...

Let R be a commutative ring and let a ε R be a non-zero element. Show that Ia ={x ε R such that ax=0} is an ideal of R. Show that if R is a domain then Ia is a prime ideal

Please give examples for (a) a non-commutative ring (b) a subgroup H of a group G...

Please give examples for (a) a non-commutative ring (b) a subgroup H of a group G which is not normal in G (c) a commutative ring R in which the zero ideal {0} is not prime (d) a nonzero proper ideal J in a commutative ring IZ which is not maximal in R