The square root of 29 is an irrational number.
It would simply be the irrational square root of a rational number. There is no special name for it.
It is a rational number because the square root of 64 is 8 which is a rational number
The square root of 49 is 7, so it is rational.
Yes because the square root of 169 is 13 which is a rational number
Yes because the square root of a 100 is 10 which is a rational number
When the whole number is a perfect square, ie it is a whole number squared.
Yes, it's 10.
Yes, 225 squared is a rational number.
They are rational.
Oh, dude, the square root of 25 is 5, which is a whole number and can be expressed as a fraction 5/1. So, yes, it is a rational number because it can be written as a ratio of two integers. But hey, who really cares about all that math stuff anyway, right?
No because 7 squared equals 49 which is a rational number but the square root of 7 is an irrational number
No; the square root of any rational number squared is that rational number. Examples: √(2^2) = √4 = 2. √((1/2)^2) = √(1/4) = 1/2
The square root of 100 is rational since it is not repeating.
No. The square root of any rational number squared is a rational number. eg √(2^2) = √4 = 2. eg √((3/4)^2) = √(9/16) = 3/4
The square root of 29 is an irrational number.
The answer to this question confuses me. The square root of two is an irrational number, so obviously if the square root of two is squared it becomes two which is a rational number. Thinking of it that way then the answer is yes, the square of an irrational number can be a rational number. But . . . You had to know beforehand that the irrational number was the square root of another number. If you start out with an irrational number such as Pi you cannot square it because you cannot know the entire number in order to square it.