Prove by the principle of mathematical i...

Prove by the principle of mathematical induction that `(n^5)/5+(n^3)/3+(7n)/(15)` is a natural number for all `n in Ndot`

MATHEMATICAL INDUCTION
MODERN PUBLICATION|Exercise EXERCISE-4(a)(Short Answer Type Questions)|5 Videos
MATHEMATICAL INDUCTION
MODERN PUBLICATION|Exercise EXERCISE-4(b)(Short Answer Type Questions)|2 Videos
MATHEMATICAL INDUCTION
MODERN PUBLICATION|Exercise Questions From NCERT Examplar|2 Videos
LINEAR INEQUATIONS
MODERN PUBLICATION|Exercise CHAPTER TEST|12 Videos
MATHEMATICAL REASONING
MODERN PUBLICATION|Exercise CHAPTER TEST 14|12 Videos

Similar Questions

Explore conceptually related problems

Prove by the principle of mathematical induction that n<2^(n) for alln in N

Prove by the principle of mathematical induction that for all n in N,n^(2)+n is even natural number.

Prove that (n^(5))/(5)+(n^(3))/(3)+(7n)/(15) is a natural number.

Prove by using principle of mathematical induction :2^(n)<3^(n),n in N

Prove by the principle of mathematical induction that for all !=psi lonN;n^(2)+n is even natural no.

Prove by the principle of mathematical induction that n(n+1)(2n+1) is divisible by 6 for all n in N

Using the principle of mathematical induction, prove that (7^(n)-3^(n)) is divisible by 4 for all n in N .

Prove the following by the principle of mathematical induction: 7^(2n)+2^(3n-3)*3^(n-1) is divisible 25 for all n in N

Using the principle of mathematical induction, prove that n<2^(n) for all n in N

Using the principle of mathematical induction. Prove that (x^(n)-y^(n)) is divisible by (x-y) for all n in N .