Using Binomial theorem, prove that 6^(n)...

Using Binomial theorem, prove that `6^(n)-5n` always leaves remainder 1 when divided by 25 for all positive interger n .

Promotional Banner

Promotional Banner

Similar Questions

Explore conceptually related problems

Using Binomial theorem, prove that 6^(n)-5n always leaves remainder 1 when divided by 25 for all positive integer n.

Using binomial theorem, prove that 2^(3n)-7^n-1 is divisible by 49 , where n in Ndot

Prove that n^(2)-n divisible by 2 for every positive integer n.

Prove that (n !)^2 < n^n n! < (2n)! , for all positive integers n.

The set of all positive integers which leave remainder 5 when divided by 7 are ……….

Prove that 7^(n) - 6n - 1 is always divisible by 36.

Prove the 2^(n)+6times9^(n) is always divisible by 7 for any positive integer n.

Prove that the square of any integer leaves the remainder either 0 or 1 when divided by 4.

Recommended Questions

Using Binomial theorem, prove that 6^(n)-5n always leaves remainder 1 ...
Text Solution
|
Using binomial theorem, prove that 6^n-5nalways leaves remainder 1 wh...
Text Solution
|
Using binomial theorem, prove that 6^n-5n always leaves he remainder 1...
Text Solution
|
द्विपद प्रमेय का प्रयोग करके सिद्ध कीजिए कि 6^(n)-5n को जब 25 से भाग...
Text Solution
|
द्विपद प्रमेय का प्रयोग करके सिद्ध कीजिए कि 6^(n)-5n को जब 25 से भाग द...
Text Solution
|
Using binomial theorem, prove that 8^(n)-7n always leaves remainder 1 ...
Text Solution
|
Using binomial theorem prove that 8^(n) - 7n always leaves remainder f...
Text Solution
|
Using Binomial theorem, prove that 6^(n)-5n always leaves remainder 1 ...
Text Solution
|
Using Binomial theorem, prove that 6^(n)-5n always leaves remainder 1 ...
Text Solution
|