Statement 1: Let A ,B be two square matr...

Statement 1: Let `A ,B` be two square matrices of the same order such that `A B=B A ,A^m=O ,n dB^n=O` for some positive integers `m ,n ,` then there exists a positive integer `r` such that `(A+B)^r=Odot` Statement 2: If `A B=B At h e n(A+B)^r` can be expanded as binomial expansion.

Similar Questions

Explore conceptually related problems

If A and B are two nonzero square matrices of the same order such that the product AB=O , then

If Aa n dB are two non-singular matrices of the same order such that B^r=I , for some positive integer r >1,t h e nA^(-1)B^(r-1)A=A^(-1)B^(-1)A= I b. 2I c. O d. -I

If B ,C are square matrices of order na n difA=B+C ,B C=C B ,C^2=O , then for any positive integer p ,A^(p-1)=B^p[B+(p+1)C] where k= .

Can you think of positive integers a, b such that a^(b) = b^(a) ?

If a and b are any two integers then there exists unique integers q and r such that _____ where olerle|b| .

If A and B are square matrices of the same order such that AB = BA, then prove by induction that AB^(n)=B^(n)A . Further, prove that (AB)^(n)=A^(n)B^(n) for all n in N .

a and b are two positive integers such that a^(b)timesb^(a)=800 . Find the a and b.

If n and r are two positive integers such that nger,"then "^(n)C_(r-1)+""^(n)C_(r)=

Euclid's division lemma states that for positive integers a and b, there exist unique integers q and r such that a=bq+r , where r must satisfy.

Statement 1: Let `A ,B` be two square matrices of the same order such that `A B=B A ,A^m=O ,n dB^n=O` for some positive integers `m ,n ,` then there exists a positive integer `r` such that `(A+B)^r=Odot` Statement 2: If `A B=B At h e n(A+B)^r` can be expanded as binomial expansion.

Similar Questions

Recommended Questions