Every whole number, except 1, satisfies this requirement since it would be the product of 1 and the number itself.
it is called multiple
None. The LCM (least common multiple) is the smallest positive whole number exactly divisible by two or more whole numbers.
I'm not sure what you want. You can have 5 and 2 and any non-zero whole number. You can have 10 and any two non-zero whole numbers. You can have any even number, then any multiple of 5, then any non-zero whole number. Or any multiple of ten, then any two non-zero whole numbers. I think I covered the possibilities.
The set of all whole numbers and their opposites are
This product is called a multiple of the original number.
The result of multiplying two whole numbers is called a product. It is a multiple of each of the whole numbers.
Lowest common multiple
Zero is a multiple of every whole number. This is because a multiple is defined as the product of a number and an integer, and since 0 multiplied by any integer is always 0, it follows that 0 is a multiple of all whole numbers.
it is called multiple
None. The LCM (least common multiple) is the smallest positive whole number exactly divisible by two or more whole numbers.
None. The LCM (least common multiple) is the smallest positive whole number exactly divisible by two or more whole numbers.
I'm not sure what you want. You can have 5 and 2 and any non-zero whole number. You can have 10 and any two non-zero whole numbers. You can have any even number, then any multiple of 5, then any non-zero whole number. Or any multiple of ten, then any two non-zero whole numbers. I think I covered the possibilities.
No, prime numbers refer to whole numbers, not decimals.
There are infinitely many such numbers. Multiply 14 by any whole number and you have one.
A whole number is called an "integer".
None. The LCM (least common multiple) is the smallest positive whole number exactly divisible by two or more whole numbers.
This is called a mixed number. Mixed numbers are numbers that stand for both a fraction and a whole number. For example: 41/2