We define the multiples of 2/39 as the product of any integer multiplied by 2/39. Therefore, to create a list of multiples of 2/39 we start by multiplying 2/39 by one, then we multiply 2/39 by two, then we multiply 2/39 by three, and so on.
To multiply a fraction by an integer, we leave the denominator alone and multiply the numerator by the integer. It is impossible to give you a list of all multiples of 2/39 because the list goes on forever. However, here is the math to calculate the beginning list of multiples of 2/39.
2/39 × 1 = 2/39
2/39 × 2 = 4/39
2/39 × 4 = 6/39
2/39 × 4 = 8/39
2/39 × 5 = 10/39
2/39 × 6 = 12/39
2/39 × 7 = 14/39
2/39 × 8 = 16/39
2/39 × 9 = 18/39
2/39 × 10 = 20/39
2/39 × 11 = 22/39
2/39 × 12 = 24/39
We have simplified the fractions above for you. Below are the multiples of 2/39 in their lowest possible terms:2/39 = 2/39
4/39 = 4/39
6/39 = 2/13
8/39 = 8/39
10/39 = 10/39
12/39 = 4/13
14/39 = 14/39
16/39 = 16/39
18/39 = 6/13
20/39 = 20/39
22/39 = 22/39
24/39 = 8/13
As we stated above, the list of multiples of 2/39 goes on forever because the product of 2/39 multiplied by any whole number (integer) is a multiple of 2/39.
You can also create a list of multiples of 2/39 if you keep adding 2/39 like this:2/39
2/39 + 2/39 = 4/39
2/39 + 2/39 + 2/39 = 6/39
2/39 + 2/39 + 2/39 + 2/39 = 8/39
∞
Again, the list can go on forever, because you can continue adding 2/39 to the list. Therefore, the list of multiples of 2/39 is ∞ (infinite).
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Multiples of 2/40
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