Let R be a commutative ring with unity. If I is a prime ideal of R, prove that I[x] is a prime ideal of R[x].
Theorem 14.3:
Statement:An ideal I of a commutative ring R is prime, iff the quotient ring R/I is an integral domain.
Let R be a commutative ring with unity. If I is a prime ideal of R,...
2. Let R be a commutative ring with unity 1, and let a be a unit in R Let / be an ideal in R that contains the element a. Prove that / cannot be a proper ideal of R. 3. Let R be a commutative ring with unity 1 of order 30, and let be a prime ideal of R. Prove that is a maximal ideal of R
Let R be a commutative ring with unity 1 and let I be a minimal ideal in R i.e. a nonzero ideal which does not properly contain another non-zero ideal. Show that either the product of two elements in I is always zero or there is an element in I that serves as unity in the ring I. Show also that in the latter case I is a field.
(5) Suppose R is a commutative ring with unity, and r e R. Let A(r) {s E R : rs-0). Prove that A(r) is an ideal of R.
thanks Let I be a proper ideal of a commutative ring R with 1. Prove that I is a maximal 3. (10 ideal of R if and only if for every a e R\I, I+(a) : {i+ ar i e I,rE R} = R. Let I be a proper ideal of a commutative ring R with 1. Prove that I is a maximal 3. (10 ideal of R if and only if for every a e R\I, I+(a) : {i+...
66. Let R be a commutative ring with identity. An ideal I of R is irreducible if it cannot be expressed as the intersection of two ideals of R neither of which is contained in the other. the following. (a) If P is a prime ideal then P is irreducible. (b) If z is a non-zero element of R, then there is an ideal I, maximal with respect to the property that r gI, and I is irreducible. (c) If...
10 Let R be a commutative domain, and let I be a prime ideal of R. (i) Show that S defined as R I (the complement of I in R) is multiplicatively closed. (ii) By (i), we can construct the ring Ri = S-1R, as in the course. Let D = R/I. Show that the ideal of R1 generated by 1, that is, I R1, is maximal, and RI/I R is isomorphic to the field of fractions of D. (Hint:...
= Let R be a ring (not necessarily commutative) and let I be a two-sided ideal in R. Let 0 : R + R/I denote the natural projection homomorphism, and write ř = º(r) = r +I. (a) Show that the function Ø : Mn(R) + Mn(R/I) M = (mij) Ø(M)= M is a surjective ring homomorphism with ker ý = Mn(I). (b) Use Homework 11, Problem 2, to argue that M2(2Z) is a maximal ideal in M2(Z). (c) Show...
74. Let R be a commutative ring with identity such that not every ideal is a principal ideal principal ideal. (b) If I is the ideal of part (a), show that R/I is a principal ideal ring 74. Let R be a commutative ring with identity such that not every ideal is a principal ideal principal ideal. (b) If I is the ideal of part (a), show that R/I is a principal ideal ring
let R be a ring with unity (180) and let UE U(R). Suppose that I is an ideal of R sot. UE Io prove that I =R
show anc explain in depth every step of the proof requested Let R be a commutative ring with unity Let I be an ideal of R such that if abel then a 6 I or 6 6 I for some nezt Next, let J= {xer | xME I for some mez"} show that I is a Prime ideal of R. (You may assume without proof that I is an ideal in the first place)