C5 a. Give a non-trivial example of an ideal in the ring Zc [x]. b. Is...
3. Consider the ring R- Zz[x] and the ideal Ixx+1>, (a) Is I a prime ideal? Is I a maximal ideal? (b) Find all the multiplicative units of R/I (a+ bx cx2 a, b, c E 2. Is the group of units cyclic? If so, give a generator. If not, determine to what commor group it is isomorphic?
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...
6. Let R be a non-trivial ring with unity. Suppose x E R satisfies x2 = 0. Show that x – 1 and x +1 are units in R.
Every ring in this test is commutative with 1 and 1 0 1. Which of the followings are prime ideals of Z? (Separate your answers by commas.) A. ( B. (2). C. (9). D. (111). E. (101) 2. Which of the followings are ring homomorphisms? (Separate your answers by commas.) A.φ: Z → Z, defined by (n) =-n for all n E Z B. ф: Z[x] Z, defined by ф(p(z)) p(0) for all p(z) E Z[2] C. : C C....
12. NEZ True] [False] A maximal ideal is prime. [True] [False] The ring Q[x]/<r? + 10x + 5) is a field [True] [False] If R is an integral domain and I c R is an ideal, then R/I is an integral domain as well [True] [False] The map : M2(Q) - Q defined by °(A) = det(A) is a ring homomorphism. [True] [False] If I, J are distinct ideals of a ring R then the quotient rings R/T and R/T...
Coursework question 12.1 Give examples of non-trivial random variables X, Y such that E「XX21 -X and 2
In ring Z36 consider ideals I = (3) and J = (8). (a) Find the order and list all elements of the ideal I. (b)Find the order and list all elements of the ideal J. (c) Is I a maximal ideal? Why? (d) Is I a prime ideal? Why? (e) Is J a maximal ideal? Why? (f) Is J a prime ideal? Why?
ONLY question 25 thx 24. Prove that in a Boolean ring every finitely generated ideal is principal. 25. Assume R is commutative and for each a e R there is an integer n > 1 (depending on a) such that an = a. Prove that every prime ideal of R is a maximal ideal.
Please solve all questions 1. Let 0 : Z/9Z+Z/12Z be the map 6(x + 9Z) = 4.+ 12Z (a) Prove that o is a ring homomorphism. Note: You must first show that o is well-defined (b) Is o injective? explain (c) Is o surjective? explain 2. In Z, let I = (3) and J = (18). Show that the group I/J is isomorphic to the group Z6 but that the ring I/J is not ring-isomorphic to the ring Z6. 3....
Please answer all parts. Thank you! 20. Let R be a commutative ring with identity. We define a multiplicative subset of R to be a subset S such that 1 S and ab S if a, b E S. Define a relation ~ on R × S by (a, s) ~ (a, s') if there exists an s"e S such that s* (s,a-sa,) a. 0. Show that ~ is an equivalence relation on b. Let a/s denote the equivalence class...