The absolute value of a number is expressed with the symbol |. To show you want to find the absolute value of an integer(using x as the integer) you would do this |x|.
Examples-
|2| = 2
|-9| = 9
|325| = 325
|-457245| = 457245
Absolute value of 4 is 4.
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 absolute value is 21. The opposite, when you are studying absolute values, is probably -21.
Absolute values are never negative. The opposite, or negative, or additive inverse, of a negative number is the number's absolute value; a non-negative number is its own absolute value. The absolute values of 7 and -5, are, respectively, 7 and 5.
No.A positive integer is always larger than a negative integer. In the case of two negative integers, the integer with the larger absolute value is actually smaller.
If the number is 0 or positive, then its absolute value is itself. If the integer is negative, then its absolute value will be its negative (which will be positive).To illustrate the second case, Abs(-3) = -(-3) = +3.
The absolute value of an integer is the integer with no sign. The absolute value of +3 and -3 is 3.
The absolute value of an integer is the integer with a positive sign.
The absolute value of an integer is the value of the integer without regard to its sign. The absolute value need not be an integer.
The absolute value of the integer 21 is 21. The absolute value of something is its distance from 0.
No, an integer and its absolute value are not always opposites. The absolute value of an integer is always non-negative, while the integer itself can be negative, zero, or positive. For example, the integer -5 has an absolute value of 5, which are opposites, but the integer 0 has an absolute value of 0, making them the same. Thus, they are only opposites when the integer is negative.
When the absolute value of the positive integer is smaller than the absolute value of the negative one.
The absolute value of a positive integer is always a positive integer. It represents the distance of that integer from zero on the number line, which is always a non-negative value. Therefore, it is not possible for the absolute value of a positive integer to be a negative integer.
To determine the absolute value of the integer represented by the letter E on a number line, we first need to identify its position. The absolute value of an integer is the distance from zero on the number line, regardless of direction. If E is located at a specific point, the absolute value is simply the positive value of that point. Please provide the position of E for a precise answer.
When you add a positive integer and a negative integer, the sum will have the same sign as the integer with the larger absolute value. If the positive integer is greater in absolute value, the sum will be positive; if the negative integer has a greater absolute value, the sum will be negative. If they are equal in absolute value, the sum will be zero.
When the absolute value of the positive integer is the same as the absolute value of the negative one.
The absolute value of an integer is found by ignoring its sign (plus or minus).