Statement-1: The number of divisors of 10! Is 280.
Statement-2: 10!=`2^(p)*3^(q)*5^(r)*7^(s)`, where p,q,r,s`in`N.

The number of odd proper divisors of 3^(p)*6^(q)*15^(r),AA p,q,r, in N , is

The number of proper divisors of 2^(p)*6^(q)*21^(r),AA p,q,r in N , is

Total number of divisors of N=2^(5)*3^(4)*5^(10)*7^(6) that are of the form 4n+2,n ge 1 , is equal to

Statement-1: the highest power of 3 in .^(50)C_(10) is 4. Statement-2: If p is any prime number, then power of p in n! is equal to [n/p]+[n/p^(2)]+[n/p^(3)] + . . ., where [*] denotes the greatest integer function.

Statement-1 : ~(p iff~q) is equivalent to p iffq Statement-2 : ~(p iff~q) is tautology.

The contrapositive of the statement p to ( ~q to ~r) is

Given that the divisors of n=3^(p)*5^(q)*7^(r) are of of the form 4lamda+1,lamdage0 . Then,

Let p be the statement ''x is an irrational number'', q be the statement'' y is a transcendental number'' and r be the statement'' x is a rational number iff y is a transcendental number.'' Statement-1 : r is equivalent to either q or p Statement-2 : r is equivalent to ~(p iff~q) .

The negation of (p to q) ∨ (p to r) is

Negation of the statement p t (q ^^ r) is