If every fraction could be turned into a whole number, we wouldn't need fractions. 5 thirds is not a whole number, and there's nothing you can do to make it one, except to find another third somewhere and toss it on the pile. If you can do that, then you'll have 2. But if you're stuck with 5 thirds, then there's no way to make a whole number.
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.
12/3 since you have to find out how many 3 goes into 12 and the answer is 4.
20
eight eighths in one whole three thirds in one whole four fourths in one whole see the pattern?
If every fraction could be turned into a whole number, we wouldn't need fractions. 5 thirds is not a whole number, and there's nothing you can do to make it one, except to find another third somewhere and toss it on the pile. If you can do that, then you'll have 2. But if you're stuck with 5 thirds, then there's no way to make a whole number.
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.
12/3 since you have to find out how many 3 goes into 12 and the answer is 4.
3
125
15
eight eighths in one whole three thirds in one whole four fourths in one whole see the pattern?
9
To find two-thirds of 120,000, you would first calculate one-third of 120,000 by dividing 120,000 by 3, which equals 40,000. Then, to find two-thirds, you would multiply 40,000 by 2, resulting in 80,000. Therefore, two-thirds of 120,000 is 80,000.
2
we know that 2 is two thirds of 3. you can multiply 3 by .666 to find 2 and you can divide 2 by .666 to find 3
The number needed works out as 9