You look for a perfect square among its factors; if you factor it into prime factors, you would look for a repeated prime factor.
Then you take that factor out of the root sign (taking the square root of it, while you do it).
sqrt(117) = sqrt(9*13) = sqrt(9)*sqrt(13) = 3*sqrt(13)
Well, there technically is not a way to simplify the square root of 2, but the simplified version of the square root of 72 is 6 square root 2
The square root of 4 = 2
It is: 4 times the square root of 6
2 times the square root of 165
sqrt(117) = sqrt(9*13) = sqrt(9)*sqrt(13) = 3*sqrt(13)
the square root of 117 is approximately 10.816653826392this is correct. the previous given answer was 13689 and this was the square of 117 and not the square root.
300 = 3 x 100 Hence sqrt(300) = sqrt(3 x 100) => sqrt(3) X sqrt(100) => sqrt(3) X 10 NB Remember '100' = 10 x 10 Hence sqrt(300) = 10*Sqrt(3)
the 4th root of 49 is the square root of the square root of 49 since square root 49 =7 then simplify is square root of 7
10.8 * * * * * True, but that is evaluating it, not simplifying. The latter answer is sqrt(117) = sqrt(9*13) = sqrt(9)*sqrt(13) = 3*sqrt(13)
Well, there technically is not a way to simplify the square root of 2, but the simplified version of the square root of 72 is 6 square root 2
The square root of 4 = 2
10.8166538
The square root of 147, simplified, is: ± 12.1
2 times the square root of 35
The square root of 3442 cannot be simplified.
4 times the square root of 7