16
4
79
pie
square the length of the 2 shorter sides, add them together, take the square root and you have the hypotenuse
-- If the square root is an integer, then add ' 1 ' to it. -- If the square root is not an integer, then there isn't any.
When you have calculated the square root of each number, simply add the results together and you will have the answer.
If you have a data set, simply take the square root of the sum of the squares of the data points. Let's say you have three numbers a, b, and c. RSS = SQRT(a2 + b2 + c2).
There is no formula relating to a perfect square but if you want a method 1. Find square root(x) 2. Take the integer component (integral value) of square root(x) 3 Add 1 to intenger(square root(x)) 4. square it So: (integer(square root(x)) + 1)^2
Unfortunately the first term to be squared is not given. However, if the question was about a2 + b2, I regret that there is no simplification. You simply have to calculate the two squares, add them and take the square root.
You can always add radicals, but you can't simplify unless the radicands have a common factor. For example, the square root of 20 plus the square root of 45 equals 2 times the square root of 5 plus 3 times the square root of 5, which is 5 times the square root of 5.
Square the diagonal and take away the square of width, this gives you the square of the other side. Add the square root of the two sides and multiply by two.
To find the RMS or root mean square, we first square the numbers then add the squares. So for 6 and 24 the sum of the squares is 612 Now we divide by n which is the 2 in this case so 612/2=306 and take the square root of that.=3xsquare root of 24 or about 17.4929
It works out as -26 times the square root of 3