If `ninNN` , both expression `n(n+1)(n+2)` and `n(n+1)(n+5)` are multiple of -

The expression ((1+i)^(n))/((1-i)^(n-2)) equals

Using principle of mathematical induction, prove that for all n in N, n(n+1)(n+5) is a multiple of 3.

Prove that by using the principle of mathematical induction for all n in N : n(n+1)(n+5) is a multiple of 3

By induction prove that, 7^(2n)+2^(3(n-1))*3^(n-1) is a multiple of 25 for all ninNN .

For the Paschen series the value of n_(1) and n_(2) in the expression Delta E= Rhc ((1)/(n_(1)^(2))-(1)/(n_(2)^(2))) are

If f and g are two functions defined on N , such that f(n)= {{:(2n-1if n is even), (2n+2 if n is odd):} and g(n)=f(n)+f(n+1) Then range of g is (A) {m in N : m= multiple of 4 } (B) { set of even natural numbers } (C) {m in N : m=4k+3,k is a natural number (D) {m in N : m= multiple of 3 or multiple of 4 }

For all ninNN , prove by principle of mathematical induction that, 4^(n)+15n-1 is a multiple of 9.

If ninNN , then by principle of mathematical induction prove that, 3^(4n+1)+2^(2n+2)" "[nge0] is a multiple of 7.

For n in N , Prove that (n+1)[n!n+(n-1)!(2n-1)+(n-2)!(n-1)]=(n+2)!

If .^(2n+1)P_(n-1): .^(2n-1)P_(n)=3:5 , find n.