To any set that contains it!
It belongs to {sqrt(30)},
or {45, sqrt(30), pi, -3/7},
or real numbers between -6 and 6,
or all real numbers
or complex numbers,
etc.
The square root of 121 is rational, an integer, and a natural number.
Root 6 is an irrational [real] number.
3 is the square root of 9. 9 is a square number. 9 is the square root of 81. 81 is a square number.
A square root can belongs to the following subsets:complex numbersreal numbersrational numbersintegers
No - a natural number is a whole number. Therefore, the square root of 49 is a natural number, but the square root of 50 is not.
It belongs in the irrational group of numbers.
The square root of 121 is rational, an integer, and a natural number.
Root 6 is an irrational [real] number.
It is an irrational number, and therefore a real number.
The square root of 6 is an irrational number. It is also an algebraic number, a quadratic surd, an algebraic integer, a constructible number, and a computable number.
The square root is the number which is times by itself, to get the square number.
A square root is not a number system. Square roots of non-negative numbers may be rational or irrational, but they all belong to the set of real numbers. The square roots of negative numbers do not. To include them, the number system needs to be extended to the complex numbers.
Sometimes the square root of a positive number can be irrational, as in the square root of 2 (which is a non-perfect square number), but sometimes it is a rational number, as in the square root of 25 (which is a perfect square number).
Irrational
3 is the square root of 9. 9 is a square number. 9 is the square root of 81. 81 is a square number.
the square root of a number is the number that is multiplied by itself to get that number, for example the square root of 9 is 3
A square root can belongs to the following subsets:complex numbersreal numbersrational numbersintegers