The square root of -3 is i times the square root of 3 (where "i" is the imaginary unit). To take the square root of an expression such as n9, you can halve the exponent and write it either as n4.5 or (square root of n) times n4. Finally, you have to multiply all the parts together for the final result.
10 square root of 3.
3(3 square root of 2) = 9(square root of 2)
No. The square of 3 is 9 The square root of 9 is 3.
So I assume you mean the square root and square root of 27=square root of (9x3)=3(square root (3))
3 square root of 5 cannot be rationalised.3 square root of 5 cannot be rationalised.3 square root of 5 cannot be rationalised.3 square root of 5 cannot be rationalised.
square root 2 times square root 3 times square root 8
Square root (75) / square root (3) = 5
Square root of 6
10 square root of 3.
3(3 square root of 2) = 9(square root of 2)
square root (y) / Square root (3) root (y) / 1.73
hmm... okay, if I understand you correctly, 2 times the square root of 3 times the square root of 12? = 2(1.73)(3.46) = 11.9716. If you aren't using the approximations, then just simplifying is... [sorry, I can't do the square root sign on the computer...] 2(square root of 3)(square root of 12) = 2(square root of 3)(square root of 4*3) = 4(square root of 3)(square root of 3) = 4(3) = 12!!! HOPE I HELPED!! :-)
the square root of 18 can be simplified to 3 * the square root of 2.The perfect square 9 is a factor of 18. That means the square root of 9 * the square root of 2 = the square root of 18.the square root of 9 can be simplified to 3.That leaves 3 * the square root of 2.
No. The square of 3 is 9 The square root of 9 is 3.
5 Square root 3. square root 27 = square root 9*3 = 3square root 3 3square root3 + 2square root3 = 5Square Root3 because both have a square root 3.
So I assume you mean the square root and square root of 27=square root of (9x3)=3(square root (3))
3 square root of 5 cannot be rationalised.3 square root of 5 cannot be rationalised.3 square root of 5 cannot be rationalised.3 square root of 5 cannot be rationalised.