Usually not.
Select any non-zero integer D and let N = -173*D.Then the quotient N/D = -173*D/D = -173.
Yes, 100 is a rational number.A rational number is any number that can be expressed as the quotient a/b of two integers, with the denominator b not equal to zero. Since b may be equal to 1, every integer is a rational number.
Yes.An integer is any whole number ...-3, -2, -1, 0, 1, 2, 3...There are positive integers, zero and negative integers. 1.5 or 1/2, etc. are NOT integers as they are not whole.
All integers are whole numbers. The natural numbers are zero and the positive integers. Thus, any negative integer (-1, -2, -3, etc.) is whole but not "natural."
No. The second integer MUST be non-zero.
Usually not.
Select any non-zero integer D and let N = -173*D.Then the quotient N/D = -173*D/D = -173.
Any integer divided by a non-zero integer is rational.
Any integer can be divided by any non-zero integer, and the result is a rational number.
Yes, but the quotient will not always be an integer.
an integer is any whole number for example 1, -1, 72, -72 the quotient is the answer to a division problem so the quotient of 2 integers is one whole number divided by another whole number
The integers are the numbers {0, 1, 2, 3, ...} and the numbers {-1, -2, -3, 4, ...}. That is, they are all of the "whole" numbers, their negatives, and zero. A non-zero integer is any integer except 0.
A non-positive integer is a negative integer. The term refers to any integer (a number that has no decimal part) that is less than zero.It means that it is an integer (whole number), and that it isn't positive. In other words, that includes zero, and negative integers.
If a number can be expressed as the quotient of two numbers (a ÷ b) and b is not zero, then it is a rational number.
Any number with non-zero digits AFTER the decimal point (to the right of it) is NOT an integer.
Multiply both the numerator (top) and the denominator (bottom) of the quotient by any non-zero integer or divide both by any common factor. You will have an equivalent quotient.