Not in the case of Rational Numbers -- only in Imaginary Numbers, typically referring to the imaginary component.
It could be an imaginary number or a complex number or on belonging to a higher class of numbers.
There is no "the" square number. 225, 256 and 289 are THREE square numbers between 200 and 300.
The closest square number will be as close to 9999 as you like. For example, 99.999 square = 9999.800001 (0.800001 away) 99.995 square = 9999.000025 (0.000025 away) You could get closer still. The nearest PERFECT square, however, is 10,000.
It could be either. For example, √9 is a rational number, whereas √2 is not.
Actually a negative number can be under a square root symbol. This becomes very useful in electrical calculations. The square root of -1 is j. That is, j2 = -1.
6220 is not a square number. The nearest number that is a square number would be 6241. A square number is when all the integers are written down, it could represent a square eg. 4 x 4 meaning that 16 is a square number.
When finding the factors of 841, the largest number you would test is 29. No prime number higher than 29 could be a factor because the square of that number would exceed 841.
It will be an irrational number. This means it cannot be written as a/b where a and b are integers. If it could, it would be a perfect square.
Based on your description, it could be 9,4, or 1.
No. (There is no way that you could arrange 104 tiles into a square. The closest square numbers are 100 and 121.)
It could be an imaginary number or a complex number or on belonging to a higher class of numbers.
When finding the factors of 841, the largest number you would test is 29. No prime number higher than 29 could be a factor because the square of that number would exceed 841.
Find the range of a function by substituting the highest domain possible and the lowest domain possible into the function. There, you will find the highest and lowest range. Then, you should check all the possible cases in the function where a number could be divided by 0 or a negative number could be square rooted. Remove these numbers from the range. A good way to check to see if you have the correct range is to graph the function (within the domain, of course).
No. It could be square or division problem too.
so that it would be stronger and they could build tombs inside of it and so that it could be stacked higher and not fall over
n= number of insects in 1 square meter x area of backyard in square meters
There is no "the" square number. 225, 256 and 289 are THREE square numbers between 200 and 300.