For a positive integer n, if the expanison of
`(5/x^(2) + x^(4))` has a term independent of x, then n can be

If the expansion of (x - (1)/(x^(2)))^(2n) contains a term independent of x, then n is a multiple of 2.

If the expansion of (x - (1)/(x^(2)))^(2n) contains a term independent of x, then n is a multiple of 2.

If 5th term of the expansion (root(3)(x) - 1/x)^n is independent of x then n =

Write down the fourth term in the binomial expansion of (px + (1)/(x) )^(n) . If this term is independent of x , find the value of n. With this value of n , calculate the value of p given that the fourth term is equal to (5)/(2) .

If the fourth term in the expansion of (px+1/x)^n is independent of x, then the value of term is

Find the term independent of x in (x+1/x)^(2n)

The 13^(th) term in the expanion of (x^(2)+2//x)^(n) is independent of x then the sum of the divisiors of n is

The sum of the binomial coefficients in the expansion of ((2x)/(3) + (3)/(2x^2))^n is 64 then the term independent of x is

If n is a positive odd integer, then int |x^n| dx=

The term independent of x in (1+x)^m (1+1/x)^n is