Yes
-1,0,or 1 the negative square root of four is negative two and the square root of four is two
The square root of 2, for example, is irrational.sqrt(2)*sqrt(2) = 2 which is rational.
There are an infinite number of rational numbers between these two numbers, but the only positive integer between these numbers is 6.
Well, for example, the square root of 4 is 2, which is a rational number. As long as the number which is being square rooted is not a square number itself (i.e. 1, 4, 9, 16 etc.), then it will be irrational. So..... the square roots of 49, 100, 196, for example, are all rational numbers (7, 10 and 14 respectively.) They do not have to be integers. The square of of any rational number automatically has a rational square root eg the square root of 77.41792 is 77.4179 . Rational means expressable as a ratio of integers: 77.4179 is 774179/10000 .
The square root of any positive square number is always rational as for example the square root of 36 is 6 which is a rational number.
No. Though every perfect square is a rational number, not every rational number is a perfect square. Example: 2 is a rational number but sqrt(2) is not rational, so 2 is not a perfect square.
n is a square of a rational number. For example, 4 or 81, or 2.25 or 36/25.n is a square of a rational number. For example, 4 or 81, or 2.25 or 36/25.n is a square of a rational number. For example, 4 or 81, or 2.25 or 36/25.n is a square of a rational number. For example, 4 or 81, or 2.25 or 36/25.
.95 is a rational number or square root of 121 a rational number
√2.
the square root of 2
Yes
No. An example of this is pi.
It could be either. For example, √9 is a rational number, whereas √2 is not.
pi, or the square root of 2.
The square root of 2 is real number but it is not rational number because it can't be expressed as a fraction.
Take the square root of any number between 3 and 4 - for example, the square root of 3.1, 3.5, 3.8, etc.