sqrt(2) = 1.414214, sqrt(2)/2 = 0.707107
Alternatively,
sqrt(2)/2 = sqrt(2)/[sqrt(2)*sqrt(2)] = 1/sqrt(2) = 1/1.414214 = 0.707107
Conventionally, the radical (if any) appears in the numerator, not the denominator.
You take a guess as to an approximate square root, for example 2, which is the square root of 2. You divide 5 by 2, to get 2.5. The real square root will be between 2 and 2.5, so you take the average of these two (2.25). You divide 5 by 2.25 to get the next approximation. Repeat a few times, until you have the desired accuracy.
it would be 16,00 because any time you want a square root of a number you always no matter what you will divide by 2
You can combine square roots when you multiply or divide. For example: root(2) x root(3) = root(6). You cannot do the same for addition and subtraction. For example, root(2) + root(3) can't be simplified.
You can use logrithms.Take your log table.Look for the log value of 2.Now divide that value by 2(you should devide by 2 if you want square root,devide by 3 if you want cubic root).Now take the antilog value.It is equal to square root.
Divide the square root by itself
Using the order of operations, the answer is 2 + sqrt(2).
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
2
2
The solution is to divide 343 by the square root of 2... That will give you the missing number.
Since the root is in the denominator of the exponent, just divide the 5 by the square root value (2), so the solution is x5/2.
Two to the power 8 (28) is 256 The square root of 256 is 16. When you take the square root of a number raised to a power y, divide that power by 2 (y/2) and that gives the square root. So the square root of 28 = 28/2 = 24 = 16
You take a guess as to an approximate square root, for example 2, which is the square root of 2. You divide 5 by 2, to get 2.5. The real square root will be between 2 and 2.5, so you take the average of these two (2.25). You divide 5 by 2.25 to get the next approximation. Repeat a few times, until you have the desired accuracy.
50
it would be 16,00 because any time you want a square root of a number you always no matter what you will divide by 2
You can combine square roots when you multiply or divide. For example: root(2) x root(3) = root(6). You cannot do the same for addition and subtraction. For example, root(2) + root(3) can't be simplified.
You can use logrithms.Take your log table.Look for the log value of 2.Now divide that value by 2(you should devide by 2 if you want square root,devide by 3 if you want cubic root).Now take the antilog value.It is equal to square root.