16 is a perfect square (of 4) and the square root of 256.
Yes. The square root of 16 is 4
No, because 15 is not a perfect square. The closest perfect square is 16, whose square root is 4.
* Its square root is a whole #. Example: 16 is a perfect square. Its square root is 4. 17 is not a perfect square. Its square root is around 4.123105626
Sure. Take the fourth power of any natural number, for example 24 = 16. It square root is a perfect square, in this case 22. As another example, the square root of 34 = 32.
A number such as 4, 25, 16, whose square root is an integer.
Yes. The square root of 16 is 4
No, because 15 is not a perfect square. The closest perfect square is 16, whose square root is 4.
* Its square root is a whole #. Example: 16 is a perfect square. Its square root is 4. 17 is not a perfect square. Its square root is around 4.123105626
The idea is to take out perfect squares. The largest perfect square in this case is 256, which is the square of 16 (if you have trouble figuring this out, you can take out a smaller perfect square first, and then see if you find additional perfect squares). In any case, the end result should not have a factor that is a perfect square. Using the symbol "root()" for square root: root(512) = root(256 x 2) = root(256) x root(2) = 16 root(2)
Sure. Take the fourth power of any natural number, for example 24 = 16. It square root is a perfect square, in this case 22. As another example, the square root of 34 = 32.
The square root of (any number that isn't a perfect square) is irrational.
factor the perfect square simplify the perfect root factor out the perfect cube simplify the perfect root √32 = √16 = √8◦2 = 4√2 move 8 out and simplify it to a perfect square
A number such as 4, 25, 16, whose square root is an integer.
200 is not a perfect square. Its square root is a fraction and the square root of a perfect square is always an integer.
345 is not a perfect square and neither is its square root.
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.