Answer to Question #117109 in Combinatorics | Number Theory for Priya

Solution.

Assume that √5 is a rational number. Suppose there exists a rational number whose square is 5. This number can be given as an unbreakable fraction "\\dfrac{m}{n}" where "m,n -" are natural numbers.

Then "\\sqrt{5}=\\dfrac{m}{m}, 5=\\dfrac{m^2}{n^2}, m^2=5n^2."

"m^2" is divisible by 5, so "m" is divisible by 5. Then "m^2" is divisible by 25. If so, then "n^2" is divisible by 5, and therefore "n" is divisible by 5. It turns out that the fraction "\\dfrac{m}{n}" is short. We came to a contradiction of the original judgment (that the number is rational). Therefore, the number "\\sqrt{5}" is irrational.

Answer: the number  "\\sqrt{5}" is irrational.