Let P(n) be statement and let P(k) `rArr P(k+1)` ,for some natural number k, then P(n) is true for all `n in N`

Let P(n) denote the statement that n^2+n is odd . It is seen that P(n)rArr P(n+1),P(n) is true for all

If P(n) : 2n lt n! , n in N , then P(n) is true for all n gt= ………….. .

Use the principle of mathematical induction : A sequence d_1,d_2,d_3,……… is defined by letting d_1= 2 and d_k = (d_k - 1)/(k) , for all natural numbers, k gt= 2 . Show that d_n = (2)/(n!) , for all n in N

Use the principle of mathematical induction : A sequence b_0,b_1,b_2 ,….. Is defined by letting b_0 = 5 and b_k = 4+b_(k-1) , for all natural numbers k. show that b_n = 5 + 4n , for all natural number n using mathematical induction.

Use the principle of mathematical induction : A sequence a_1, a_2, a_3,…… is defined by letting a_1 = 3 and a_k = 7a_(k-1) , for all natural numbers k > 2 . Show that a_n = 3.7^(n-1) , for all natural numbers .

P(n) : n (n+1) is even number then P(3) = .........

P(n) : n (n+1) is even number then P(3) = .........

P (n) : 2^(n) gt n^(2) is true for n ge ........

P (n) : 2^(n) gt n^(2) is true for n ge ........