Statement-1 : The expression `n!(100 - n)!` is maximum when `n = 50`.
Statement-2 : `.^(2n)C_(r)` is maximum when `r = n`.

Statement -1: The expression n!(20-n)! is minimum when n=10 . because Statement -2: .^(2p)C_(r) is maximum when r=p .

Statement-1: The expression ""^(40)C_(r)xx""^(60)C_(0)+""^(40)C_(r-1)xx""^(60)C_(1)+""^(40)C_(r-2)xx""^(60)C_(2)+.... attains its maximum volue when r = 50 Statement-2: ""^(2n)C_(r) is maximum when r=n.

Statement 1: When number of ways of arranging 21 objects of which r objects are identical of one type and remaining are identical of second type is maximum, then maximum value of ^13 C_ri s78. Statement 2: ^2n+1C_r is maximum when r=ndot

The maximum value of .^(n)C_(r) is obtained when r is equal to

Evaluate (n !)/(r !(n-r)!) , when n = 5, r = 2.

Statement-1: The number of zeros at the end of 100! Is, 24. Statement-2: The exponent of prine p in n!, is [(n)/(p)]+[(n)/(p^(2))]+.......+[(n)/(p^(r))] Where r is a natural number such that P^(r)lenltP^(r+1) .

Statement 1: sum_(r=0)^n(r+1)^n c_r=(n+2)2^(n-1)dot Statement 2: sum_(r=0)^n(r+1)^n c_r=(1+x)^n+n x(1+x)^(n-1)dot (1) Statement 1 is false, Statement 2 is true. (2) Statement 1 is true, Statement 2 is true, Statement 2 is a correct explanation for Statement 1 (3) Statement 1 is true, Statement 2 is true; Statement 2 is not a correct explanation for Statement 1. (4) Statement 1 is true, Statement 2 is false.

Stetemet - 1: sum_(r=0)^(n) r. ""^(n)C_(r) = n 2^(n-1) Statement-2: sum_(r=0)^(n) r. ""^(n)C_(r) x^(r) = n (1 + x )^(n-1) x

Statement:1: If sum _(r=1)^(n) sin(x_(r)) = n , then sum_(n=1)^(n) cot (x_(r)) =n . And Statement-2: The number of solutions of the equation cosx =x is 1.

If P(n) is the statement n^2+n is even, and if P(r) is true then P(r+1) is true.