If we insist on the condition that all the numbers must be integers...
The only way this can happen is if the quotient and one of the other numbers are negative. For example, if the original numbers are -4 and 2, then their sum is -2, and the quotient of -4 divided by 2 is also -2. I believe that's the only integer example of a set of numbers satisfying that criterion.
A quotient is the result of a division sum between two or more numbers. You cannot have a quotient of a single number.
3
They are 4 and 24
9 and 3
2,4
What to whole numbers have a sum of 12 and quotient of 3?
the quotient of 2 numbers is 8. The sum of the 2 numbersis 72. What are the 2 numbers
For a quotient to exist, there needs to be two numbers of a division sum.
2 and 3. 2 + 6 = 8, the sum. 6 / 2 = 3, the quotient.
There are an infinite number of groups of numbers whose sum, difference, product, quotient etc. is equal to 40 . But there are not four numbers that equal 40. In fact, there is only one number that equals 40. The number is . . . . . 40 .
A quotient is the answer to a division sum, and therefore needs two or more numbers to be calculated.
A quotient is the result of a division sum between two or more numbers. You cannot have a quotient of a single number.
63 and 7
3
12 and 3
25 and 5
12 and 48