To solve (\frac{\sqrt{2}}{2}), you can simplify it by recognizing that it represents a decimal value. The square root of 2 is approximately 1.414, so (\frac{\sqrt{2}}{2} \approx \frac{1.414}{2} \approx 0.707). This expression is often encountered in trigonometry, where it corresponds to the sine or cosine of 45 degrees (or (\frac{\pi}{4}) radians). Hence, (\frac{\sqrt{2}}{2}) is simply a way to express this value in simplified radical form.
x = (7 + the square root of 61) over 2, or x = (7 - the square root of 61) over 2
2 root 3 over 2, so square root of 3
About 0.39223227
To find the square root of ( \frac{44}{2} ), first simplify ( \frac{44}{2} ) to get 22. The square root of 22 is approximately 4.69. Therefore, the square root of 44 over 2 is about 4.69.
One third
x = (7 + the square root of 61) over 2, or x = (7 - the square root of 61) over 2
36
2 root 3 over 2, so square root of 3
PLUS 2
About 0.39223227
You can solve this in two steps: 1) Calculate the square root with a calculator. 2) Compare.
One third
To find the square root of ( \frac{44}{2} ), first simplify ( \frac{44}{2} ) to get 22. The square root of 22 is approximately 4.69. Therefore, the square root of 44 over 2 is about 4.69.
Surds are irrational square root numbers that cannot be solved but they can be simplified. For example the square root of 12 can be simplified to 2 times the square root of 3.
6^2 is 367^2 is 49so, the square root of 45 is between these two but is an irrational number close to6.708203932
The square root of 2 is irrational, and therefore, this equation is unsolvable.
It is: 6 square root 5 and it's just like adding fractions with the same denominators