It is greater because the square root of 65 is 8.06.
√3 = 1.732050808 Therefore, 0.85 is less than the square root of 3.
when the number is greater than 1
Yes. The square root of 64 is 8 and the square root of 81 is 9, so the square root of 69 has to be greater than 8 and and less than 9.
No there is not. If you are looking for prime factors of a number and you get to the square root of that number you can stop. Yes, there is. If an integer is not itself a prime, then one of its factors will be less or equal to its square root and the "co-factor" will be greater than or equal to the square root. But both cannot be greater than the square root so, when searching for factors, you can stop when you reach the square root.
It is greater than the negative square root of 8, but smaller than the positive square root of 8.
Yes, if the number is less than 1
x can be any number greater than 16 and less than 81.
Yes, if the number is less than '1'.Just the opposite, if the number is greater than '1'.
For all the values of x that are less than one and greater than zero.
3 is greater than the square root of 8.
8 is greater than the square root of 60
38 is greater than the square root of 38
only if x is greater than 1
Equal, because the square root of 100 is 10, and 20 halves is also 10.
139, the square root of 19321 is less than 140.
No. The square roots of numbers between 0 and 1 (not including 0) are greater than or equal to (in the case of 1) the number. The square root of 0.49 is 0.7 for example.
5 1/4 = 5.25 square root of 26 approximately equal to 5.099 Hence 5.25 > 5.099 or 5 1/4 is greater than square root of 26
The square root of 2 and the square root of 3 both qualify. Both of these are irrational and both are greater than 1 but less than 2. There are, of course, uncountably infinite different irrational numbers in the range between 1 and 2 and countably infinite rational numbers.
a square number is a number that you multiply the same number like:8.8 = 64 get it
The width can be any number greater than zero and less than the square root of 35, and the length can be any number greater than the square root of 35, subject to the constraint that the product of the length and the width must be 35.