No, it is an integer.
The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.
The first three positive integer multiples of 47 are: 47 x 1 = 47 47 x 2 = 94 47 x 3 = 141
Yes, the square of an integer is always an integer.
The square root of an integer is a CYCLOTOMIC integer.
62
47, 94, 141, 188, 235
The positive integer factors of 188 are: 1, 2, 4, 47, 94, 188
The positive integer factors of 470 are: 1, 2, 5, 10, 47, 94, 235, 470
They are 1, 2, 3, 4, 6, 12, 47, 94, 141, 188, 282, and 564.
188 is an integer and not a fraction. However, it can be expressed in rational form as 188/1. You can then calculate equivalent rational fractions if you multiply both, its numerator and denominator, by any non-zero integer.
0094 0013 ____ 0283 0940 ____ 1223 ____ Note that I have prefixed integer numbers with zeros and that does not change their value. Because of the shortcomings of the editor we are using I have to do this to align the numbers and show the results. First multiply 94 by 3 and write down the answer as 0283 (the leading zero shown here only for alignment). You then multiply 94 by 1, but recognize that the 1 in 13 represents 10's position. So force a zero on the very right (below the 3 in the first line) and then the result of the multiplication which is 94. Now add and you get the product. Remember, in integer numbers leading zeros are irrelevant but trailing zeros are very very relevant.
No, it is an integer.
The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.The absoluate value of a positive integer is the integer itself.
The first three positive integer multiples of 47 are: 47 x 1 = 47 47 x 2 = 94 47 x 3 = 141
Yes, the square of an integer is always an integer.
the square of an integer will always be an integer