Six-and-a-bit
No. This can be shown by the fact that the square of 2 is 4, and the square of 3 is 9. As 2 and 3 are successive integers, the square root of 8 must lie between them.
The square root of 137 is not an integer and so does not.
The square root of 150 is approximately 12.25. The integers that lie between 12 and 13 are 12 and 13. Therefore, the only integer that lies between the square root of 150 is 12.
The square roots of negative 55 are the imaginary numbers -7.4162*i and 7.4162*i where i is the square root of -1. There can be only one integer between any two imaginary numbers and that is 0.
The square root of 132 is approximately 11.48. The two integers that lie between the square root of 132 are 11 and 12.
The square root of 41 is approximately 6.4. The two integers that lie between the square root of 41 are 6 and 7.
The square root of 3 will lie between 1 and 2.
between which two consecutive integers does the square root lie 123
The square root of 75 lies between 8 and 9.
Because the square root of 55 is about 7.416198487 which is between 7 and 8
all numbers in the range -√130 to √130, or approximately -11.4 to 11.4 lie between the square root of 130. So two numbers that lie between the square root of 130 are 1 and 2. ---------------------------------------- If you meant: What two whole numbers does the square root of 130 lie between? Then √130 lies between 11 and 12.
The square root of 125 is approximately 11.18. The two integers that lie between 11 and 12 are 11 and 12. Therefore, the two integers between the square root of 125 are 11 and 12.