Using the binomial theorem show that `1^(99) + 2^(99) +3^(99) + 4^(99) + 5^(99)` is divisible by 3 and 5 so that it is actually divisible by 15.

Using binomial theorem show that 1^(99) + 2^(99) +3^(99) + 4^(99) + 5^(99) is divisible by 5

5^n -1 is divisible by 4.

7^(2n) + 2^(3n-3) 3^(n-1) is divisible by 25 for any natural number n gt 1 .

7.5^(2n-1) + 2^(3n+1) is divisible by 17 for every natural n ge 1 .

5^(2(n-4) -6n + 32 is divisible by 9 for every natural number n ge 5 .

There are 60 tickets in a bag numbered 1 through 60. If a ticket is picked at random, find the probability that the number , on it is divisible by 2 or 5 and is not divisible by any of the numbers 3, 4, 6

A four figure number is formed from the figures 1 , 2 , 3 , 5 with no repetition. Find the probability that the number is divisible by 5 .

Show that 2(1/(3!)+2/(5!)+3/(7!)+...)=1/e

Let. X = {1, 2, 3, 4, 5, 6, 7, 8,9}. Let R_(1) , be a relation on X given by R_(1) ={(x, y): x - y is divisible by 3)} and R_(2) , be another relation on X given by R_(2) ={(x, y): {x,y) sub (1,4,7) or (x, y) sub (2,5,8) or (x, y) sub (3, 6, 9)}. Show that R_(1)=R_(2) .

Find approximate values of the following : (1.99)^7