22
It is 22.
That is true.
The greatest whole number is 5, but you could get a value higher than 5 but less that 6 if there are decimal places involved. So you could have a remainder of 5.999999999999999999 for example.
It is W - 1. If the remainder is greater than or equal to W, then you can subtract W from the remainder and increase the quotient by 1.
The answer is 13. If the remainder was 14 or more, then the quotient could be increased by 1 or more and the remainder reduced by the appropriate multiple of 14.
If you're dividing a whole number by 2, then the greatest possible remainder is 1.
It is: 40
It is 22.
40
That is true.
The greatest whole number is 5, but you could get a value higher than 5 but less that 6 if there are decimal places involved. So you could have a remainder of 5.999999999999999999 for example.
It is W - 1. If the remainder is greater than or equal to W, then you can subtract W from the remainder and increase the quotient by 1.
The answer is 13. If the remainder was 14 or more, then the quotient could be increased by 1 or more and the remainder reduced by the appropriate multiple of 14.
Your question's meaning eludes me. You can divide any number by 5, whether or not it is a remainder, and why would you want to divide a remainder by 5 anyway?
If you divide an integer by 9, the remainder can be anything from 0 to 8.If you divide an integer by 9, the remainder can be anything from 0 to 8.If you divide an integer by 9, the remainder can be anything from 0 to 8.If you divide an integer by 9, the remainder can be anything from 0 to 8.
It is a factor.
8