What is 1/3 in a equivalent fraction?
Decimal and Fraction Conversion Chart
| Fraction | Equivalent Fractions | |
|---|---|---|
| 1/3 | 2/6 | 3/9 |
| 2/3 | 4/6 | 6/9 |
| 1/4 | 2/8 | 3/12 |
| 3/4 | 6/8 | 9/12 |
What can 1/3 be written?
0.3333
Answer: 1/3 is expressed as 0.3333 in its decimal form.
What are some fractions that equal 1?
We also know that when you have the same numerator and denominator in a fraction, it always equals 1. For example: So as long as we multiply or divide both the top and the bottom of a fraction by the same number, it’s just the same as multiplying or dividing by 1 and we won’t change the value of the fraction.
What is another way to write 1 3?
Most people will write it down as 0.33,0.333,0.3333 , etc. In practice use 13 as 0.333 or 0.33 , depending on the level of accuracy required.
What is the third equivalent fraction to 1 4?
Answer: The fractions equivalent to 1/4 are 2/8, 3/12, 4/16, etc.
How do you write an equivalent fraction?
To create an equivalent fraction, a fraction’s numerator and denominator can both be multiplied or divided by a single number. You can write an equivalent fraction with a given denominator by finding how that denominator relates to the other fraction. Write down a fraction and the denominator of the proposed equivalent fraction.
How do you create equivalent fractions?
Summary: You can make equivalent fractions by multiplying or dividing both top and bottom by the same amount. You only multiply or divide, never add or subtract, to get an equivalent fraction. Only divide when the top and bottom stay as whole numbers.
What equals 2 5 fraction?
The fraction 4 10 is equal to 2 5 when reduced to lowest terms. To find equivalent fractions, you just need to multiply the numerator and denominator of that reduced fraction (2 5) by the same integer number, ie, multiply by 2, 3, 4, 5, 6… 4 10 is equivalent to 2 5 because 2 x 2 = 4 and 5 x 2 = 10
How to calculate number of equivalents?
The general number of equivalents formula is. E = MW/charge number . Where MW is the molecular weight of the compound and charge number is the number of proton- or hydroxide-equivalents the compound contains. Examples with different acids and bases help illustrate how this works in practice.