Is the set {0, 1, -1} a group for additions? Multiplication? Why or why not?

Is the set {-1, 0, 1} a ring? A field? Why or why not.

Is the set {-1, 0, 1} a ring? A field? Why or why not.

Consider the group (Z13 − {0}, ·13). (Use MS Excel to construct the multiplication chart.) Let...

Consider the group (Z13 − {0}, ·13). (Use MS Excel to construct the multiplication chart.) Let H denote the subgroup generated by [4] and letK be the subgroup generated by [5]. a.) Calculate the groups HK and H ∩ K. b.) Calculate the groups HK/K and H/(H ∩ K) and show that they are isomorphic.

Are the following vector space and why? 1.The set V of all ordered pairs (x, y)...

Are the following vector space and why? 1.The set V of all ordered pairs (x, y) with the addition of R2, but scalar multiplication a(x, y) = (x, y) for all a in R. 2. The set V of all 2 × 2 matrices whose entries sum to 0; operations of M22.

1. Consider the set (Z,+,x) of integers with the usual addition (+) and multiplication (x) operations....

1. Consider the set (Z,+,x) of integers with the usual addition (+) and multiplication (x) operations. Which of the following are true of this set with those operations? Select all that are true. Note that the extra "Axioms of Ring" of Definition 5.6 apply to specific types of Rings, shown in Definition 5.7. - Z is a ring - Z is a commutative ring - Z is a domain - Z is an integral domain - Z is a field...

Consider the finite set of whole numbers {0,1,2}. Define addition and multiplication such that this set...

Consider the finite set of whole numbers {0,1,2}. Define addition and multiplication such that this set forms a field. Check each axiom for fields.

Prove that the quotient group GLn(R)/SLn(R) is isomorphic to the group R∗ (under multiplication).

Prove that the quotient group GLn(R)/SLn(R) is isomorphic to the group R∗ (under multiplication).

1. Can someone explain why this set is unbound closed set( -infinity,0 ] obviously, the upper...

1. Can someone explain why this set is unbound closed set( -infinity,0 ] obviously, the upper bound is 0 because of ] but why it is actually unbounded set? Please follow the comment. 2. why open subset can lead us to convergence. I don't understand it. Please give me some example or other theorem to support it

Determine whether the set with the definition of addition of vectors and scalar multiplication is a...

Determine whether the set with the definition of addition of vectors and scalar multiplication is a vector space. If it is, demonstrate algebraically that it satisfies the 8 vector axioms. If it's not, identify and show algebraically every axioms which is violated. Assume the usual addition and scalar multiplication if it's not defined. V = R, x + y = max( x , y ), cx=(c)(x) (usual multiplication.

Decide whether each of the given sets is a group with respect to the indicated operation....

Decide whether each of the given sets is a group with respect to the indicated operation. If it is not a group, state a condition in the definition of group that fails to hold. (a) The set {[1],[3],[5]}⊂Z8 with the operation multiplication. (b) The set {[0],[2],[4],[6],[8]}⊂Z10 with operation addition.

Prove that the nonzero elements of a field form an abelian group under multiplication

Prove that the nonzero elements of a field form an abelian group under multiplication