It remains as 17
The square root of 324 is 18. Do you mean the square root? Or do you mean the root of 324, squared? If you do, and by "root" you mean "square root", then 324.
The square root of 81 squared is 81.
289 17 squared is 17 x 17
Any square root squared is the number inside the ()
The cubed root of 726 is 9. 9 squared is 81
the squared root
The square root of 28 minus the squared root of 7 =±2.64575131
Since a squared plus b squared equals c squared, that is the same as c equals the square root of a squared plus b squared. This can be taken into squaring and square roots to infinity and still equal c, as long as there is the same number of squaring and square roots in the problem. Since this question asks for a and b squared three times, and also three square roots of a and b both, they equal c. Basically, they cancel each other out.
Do you mean: What is the square root of (8 squared)? If so, there are two answers: 8 and -8. Or do you mean: What is the (square root of 8) squared? If so, there is only one answer: 8.
The square root of A2 is... A !
[square root (78)] squared = 78. There is not a surd from for an integer.
The square root of 5 squared is 5, which is a rational number.
Squared. E.g the square root of 4 is 2, and 2 squared is 4.
The square root of 64 is 8.
square root of 9 is 3.
The square root of 0.0169 is 0.13
17 squared = 172 = 289
√182 is 18. Trouble is, that's not 18 squared. Try √3242 * * * * * Good try but not good enough! 18 squared is the squared root of 18 to the fourth power. That is to say, 324 is the square root of 104,976
When 100 is squared, the root is 10. That means you can multiply 10 by 10 and the answer is 100. The square root of 81 is 9 and 8 is the square root of 64.
it is 18 because when you put all the numbers back into the square root it becomes the square root of 18 and the square root of 18 squared would be 18
A line can have at most one root and so coincident roots for a line are not possible.