Any positive whole number.
"Positive integers" is the set of all whole numbers which are greater than 0: that is, the infinite set comprising 1, 2, 3, ...
It is the position of the number zero.
Positive integers are greater than negative integers. For positive integers: * The integer with more digits is larger. * If two integers have the same length, compare the first digit. If the first digit is the same, compare the second digit, then the third, etc., until you find a difference. In each case, the integer with the larger digit (at the first position where you find a difference) is the larger one.
Here we cannot use repetition so the problem becomes 5 * 4 * 3 * 2 * 1 = 120 because you can select any 5 of the integers for the 1st position, any 4 of the left over integers for the 2nd position etc.
Answering quickly, the answer is 2
Negative integers, zero and the positive integers, together form the set of integers.
2436 and 1624 are integers, not fractions. And, as integers, they are unequal.2436 and 1624 are integers, not fractions. And, as integers, they are unequal.2436 and 1624 are integers, not fractions. And, as integers, they are unequal.2436 and 1624 are integers, not fractions. And, as integers, they are unequal.
Non-positive integers are zero and the negative integers.
The set of integers represents the integers.
At least the following families: all integers; all positive integers; all odd integers; and all "square integers", that is, integers that are squares of other integers.
The set of integers is divided into three subsets. One is the positive integers. Another is the negative integers. The last subset has one element -- zero. In sum, integers are composed of the positive integers, the negative integers, and zero.
All the numerals are integers (positive integers)
The boundary points of the integers is simply the integers.