30
54
3/10
See if 300 can be factored so that one (or more) of the factors is a complete square. 300 = 3 x 100 = 3 x 102 Then �300 = �(3 x 102).......and the square root of 102 is 10. So, �(3 x 102) = 10�3 Just saying.. the square root of 100 is 10.. not the square root of 102...
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)
10 square root of 3.
square root 2 times square root 3 times square root 8
54
Multiply everything by the square root of 3 minus the square root of 2 and then times that by 100 - 72 and divide that by 5
3/10
See if 300 can be factored so that one (or more) of the factors is a complete square. 300 = 3 x 100 = 3 x 102 Then �300 = �(3 x 102).......and the square root of 102 is 10. So, �(3 x 102) = 10�3 Just saying.. the square root of 100 is 10.. not the square root of 102...
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)
there is no possible way to find the square root of 3 no matter how far you go down on decimals
Square root (75) / square root (3) = 5
The square root of 3 times the negative square root of 3 can be calculated by multiplying the two square roots together. This results in -3, as the square root of 3 multiplied by the square root of 3 is the square root of 9, which simplifies to 3. Multiplying this by the negative sign gives us -3.
Square root of 6
10 square root of 3.
(square root sign)5 (square root sign)9 which then simplifies to.. 5 (square root sign)3 The square root sign wouldn't show up properly first time I saved the answer so that's why i have written in brackets where the square root sign should be =]