Solve problem 2 using the priblem 1 . Question is taken from Ring theory dealing with ideals and generating sets for ideals. Problem 1. Suppose that R (R,+ Jis a commutative ring with unity, and suppose F- (a,,. , a } is a finite nonempty subset of R. Modify your proof for Problem 5 above to show that 7n j-1 Problem 2. Consider the set Zo of integer sequences introduced in Homework Problem 6 of Investigation 16. You showed that...
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...
3. If the integers mi, i = 1,..., n, are relatively prime in pairs, and a1,..., an are arbitrary integers, show that there is an integer a such that a = ai mod mi for all i, and that any two such integers are congruent modulo mi ... mn. 4. If the integers mi, i = 1,..., n, are relatively prime in pairs and m = mi...mn, show that there is a ring isomorphism between Zm and the direct product...
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...
two questions,please! 11. Let φ: R → S be a ring hornomorphism. Prove that if R is a field and φ(R)メ(0), then φ(R) is a field 12, Give an example where φ: R → s is a surjective homomorphisms of unitary rings and the restricted 11. Let φ: R → S be a ring hornomorphism. Prove that if R is a field and φ(R)メ(0), then φ(R) is a field 12, Give an example where φ: R → s is a...
1. Consider the group U(35) = {1, 2, 3, 4, 6, 8, 9, 11, 12, 13, 16, 17, 18, 19, 22, 23, 24, 26, 27, 29, 31, 32, 33, 34} under the operation of multiplication modulo 35. The orders of the elements are: g 1112 341689|11|12|13|16|17|18|19|22|23|24|26|27|29|31 | 32 | 33 34 ord(g) | 1 | 12 | 12 62 463 12 4 3 12 12 6 4 12 6 6 4 2 6 12 12 2 a. Find two p-groups...
Q9 6. Define Euclidean domain. 7. Let FCK be fields. Let a € K be a root of an irreducible polynomial pa) EFE. Define the near 8. Let p() be an irreducible polynomial with coefficients in the field F. Describe how to construct a field K containing a root of p(x) and what that root is. 9. State the Fundamental Theorem of Algebra. 10. Let G be a group and HCG. State what is required in order that H be...
1 L, as a dynamical system (Notes from Assignment #2) We take our definition of dynamical system to be an "object" along with a specific set of modifications that can be performed (dynamically) upon this object. In this case, the object is a bi-infinite straight road with a lamp post at every street corner and a marked lamp (the position of the lamplighter). There are two possible types of modifications: the lamplighter can walk any distance in either direction from...