The answer depends on what the divisor is.
So that the answer from the division is a single quotient.
1/0=
Usually a remainder, decimal or fraction; depending on how you are doing your division
Assuming this is the answer to a division sum, that depends entirely what the divisor of the sum is.
You do a long division, adding decimal digits until you get a remainder of zero (terminating decimal) or a repeating pattern of decimal digits.
So that the answer from the division is a single quotient.
Pie equals 3.417
1/0=
Usually a remainder, decimal or fraction; depending on how you are doing your division
when you are writing a division problem as a fraction u take the remainder of your problem and make it the numerator and make the number you are dividing by the denominator
Assuming this is the answer to a division sum, that depends entirely what the divisor of the sum is.
Put the remainder on top of the divisor and that is the fraction. Remember that a number which divides the other number is known as the divisor. So if we have 4 divided by 2, then 2 is the divisor and 4 is the dividend.
Remainder is a concept appropriate to division of integers. The question is concerned neither with integers nor with division, and so is a nonsense question.
You do a long division, adding decimal digits until you get a remainder of zero (terminating decimal) or a repeating pattern of decimal digits.
When doing any division, when you are done dividing and get a remainder, put the remainder over the divisor to get the remaining fraction. For example, 23 ÷ 5 = 4r3, so you put the 3 over the 5 and you have 4+3/5 ■
If it is divided by a fraction or a decimal. Like 1/5 or .986
You can tell you are finished solving a polynomial division problem when the degree of the remainder is less than the degree of the divisor. At this point, you cannot divide any further, and the final answer consists of the quotient along with the remainder expressed as a fraction of the divisor. If the remainder is zero, the division is exact, and there are no further steps needed.