The binary operation multiplication modulo `10(xx_(10))` is defined on the set ` A={0,1,3,7,9,},` find the inverse of the element 7.

For the binary operation multiplication modulo 5*(xx_(5)) defined on the set A={1,2,3,4}, find the value of {2xx_(5)3^(-1) . [Note that the inverse of 3 is 2]

Construct the composition table for the binary operation multiplication modulo 5(xx_(5)) on the set A={0,1,2,3,4} .

Prepare the composition table for multiplication modulo 6 (xx_(6)) on A={0,1,2,3,4,5}.

A binary operation ** is defined on the set S={0,1,2,3,4} as follows: a**b=a+b(mod5) Prove that 0inS is the identity element of the binary operation ** and each element ainS is invertible with 5-ainS being the inverse of the element a.

Let A={1,-1} be the set of square roots of unity. Considering multiplication (xx) as a binary operation on A, construct the composition table for multiplication on A. Determine the identity element for multiplication in A and the inverses of the elements.

A binary operation @ is defined on the set A={0,1,2,3,4,5} as follows: a@b=a+b(mod6) for all a,binA. Prove that oinA is the identity element In A is invertible with operation @ and each element A is invertible with 6-ainA being the inverse of the element a.

A binary operation ** is defined on the set ZZ of all integers by a@b=a+b-3 for all a,binZZ . Determine the inverse of 5inZZ .

Let M_(2)(x)d={:{((x,x),(x,x)):},x inRR} be the set of 2xx2 singular matrices. Considering multiplication of matrices as a binary operation, find the identity element in M_(2)(x) . Also find the inverse of an element of M_(2) .

The operation @ is defined by a@b=b^(a) on the set Z={0,1,2,3,…} . Prove that @ is not a binary opeartion on Z.

A binary operation * is defined on the set of all integers Z by a * b=a+b+5, a,binZ Find whether * is associative on Z.