There are infinitely many of them. Any ratio of the form (2*k)/k where k is a non-zero integerwould be one such fraction.
To divide 2 wholes and a half, you would have to divide the 2 wholes into equal parts and then divide the half as well. For example, if you divide each whole into 4 equal parts, you would have 8 parts in total. Distribute 2 parts to each whole, resulting in 4 parts for the wholes. Then, divide the half into 2 parts, adding to a total of 6 parts.
When you have 11 halves, you can think of it as having 11 parts, each of which is half of a whole. To find out how many wholes that is, you would divide 11 by 2, since there are 2 halves in a whole. Therefore, 11 halves is equal to 5 wholes with 1 half remaining.
2 / (1/6) = 2 * (6/1) = 12
There are 12 thirds in four wholes. To find this, you multiply the number of wholes by the number of parts in each whole (4 wholes x 3 parts = 12 thirds). This is because each whole can be divided into three equal parts to make thirds.
The answer depends on 31 parts of how many.
There are 8 fourths. 2 x 4/4 = 8/4
There are infinitely many of them. Any ratio of the form (2*k)/k where k is a non-zero integerwould be one such fraction.
There are 20 fifths in 4 wholes. This can be calculated by multiplying the number of wholes (4) by the number of parts each whole is divided into (5). So, 4 wholes x 5 parts = 20 fifths. Each whole can be divided into 5 equal parts, and since there are 4 wholes, there are a total of 20 fifths.
200 of them.
sixteen2 = 16 x 1/8 = 16/8 = 2/1
No, it is smaller. The numerator represents parts of a whole. The denominator represents the whole, or how many parts you need to make a whole. So if you have 2/7, that means only 2 parts out of seven wholes are filled. if you have 12/4, that means the denominator was filled 3 times, and you have 3 wholes.
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