the square of an integer will always be an integer
When they are added together and the absolute value of the positive integer is bigger than the absolute value of the negative integer or when the negative integer is subtracted from the positive integer.
The integer is 26
36.84 is not an integer so there is no integer "of 36.84".
As long as the negative integer is greater than the positive integer, a negative integer will result from addition, subtraction, multiplication, and division.
Look at the places that integers have on the number line. The integer that is on the right is greater that the integer is on the left.
That simply means that there is no integer solution to:24n = 12 For comparison, 4 IS a factor; so the equation: 4n = 12 DOES have an integer solution.
Use the comparison operators (==, <, <=, >, >=). All primitives (including char and int) support these built-in operators.
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.
Yes. If you are comparing two things then you want them to be exactly the same. If you want to have a more loose comparison you might want to change the way you are processing a value. You could look at just the integer part for example: =INT(3.5)=INT(3.2) Obviously 3.5 and 3.2 are not equal, but the INT function is taking just the integer part and comparing them. In this case it is just comparing the 3 in each part, so they are equal.
Yes, the square of an integer is always an integer.
the square of an integer will always be an integer
The square root of an integer is a CYCLOTOMIC integer.
Yes, always.
1448 is an integer.
an integer plus and integer will always be an integer. We say integers are closed under addition.