No, it is not.
The same reasoning you may have seen in high school to prove that the square root of 2 is not rational can be applied to the square root of any natural number that is not a perfect square.
It is the square root of 37*37 = 1369
The number 1369 can be divided by any of its divisors. The divisors of 1369 include 1, 37, and 1369 itself. Additionally, since 1369 is a perfect square, it can be divided evenly by 37, resulting in 37.
No, 325 is not a perfect square however 324 is a perfect square.
38 is not a perfect square. Its square root is a fraction and the square root of a perfect square is always an integer.
372 = 1369
To simplify radical expressions, we need to change 185 into the product of a perfect square (or a couple), and a not perfect square number. sqrt(185) = sqrt(37*5) I'm going to stop here, because we cannot go any further. 5 is not a perfect square, and is prime so I cannot break it down further. 37 is also not perfect, and also prime. the simplest radical form of sqrt(185) is itself. It cannot be simplified.
The same reasoning you may have seen in high school to prove that the square root of 2 is not rational can be applied to the square root of any natural number that is not a perfect square.
37 square = 37 x 37 = 1369.
It is the square root of 37*37 = 1369
The number 1369 can be divided by any of its divisors. The divisors of 1369 include 1, 37, and 1369 itself. Additionally, since 1369 is a perfect square, it can be divided evenly by 37, resulting in 37.
200 is not a perfect square. Its square root is a fraction and the square root of a perfect square is always an integer.
No, 325 is not a perfect square however 324 is a perfect square.
A perfect square is a square of an integer (a whole number).
30 is not a perfect square. Its square root is a fraction and the square root of a perfect square is always an integer.
500 is not a perfect square. Its square root is a fraction and the square root of a perfect square is always an integer.
38 is not a perfect square. Its square root is a fraction and the square root of a perfect square is always an integer.