Compare and sort the fractions in ascending order: - 188/111, - 191/134, - 100/187. Common ordinary fractions compared and sorted in ascending order, result explained below
Sort: - 188/111, - 191/134, - 100/187
To compare and sort multiple fractions, they should either have the same denominator or the same numerator.
The operation of sorting fractions in ascending order:
- 188/111, - 191/134, - 100/187
Analyze the fractions to be compared and ordered, by category:
negative improper fractions: - 188/111, - 191/134
1 negative proper fraction: - 100/187
How to compare and sort the fractions in ascending order, by categories:
- any negative improper fraction is smaller than...
- any negative proper fraction.
Sort the negative improper fractions in ascending order:
- 188/111 and - 191/134
Simplify the operation
Reduce (simplify) the fractions to their lowest terms equivalents:
By reducing the values of the numerators and denominators of the fractions, further calculations with these fractions become easier to do.
To reduce a fraction to the lowest terms equivalent: divide both the numerator and denominator by their greatest common factor, GCF.
- 188/111 is already reduced to the lowest terms.
The numerator and denominator have no common prime factors:
188 = 22 × 47
111 = 3 × 37
- 191/134 is already reduced to the lowest terms.
The numerator and denominator have no common prime factors:
191 is a prime number.
134 = 2 × 67
To compare and sort the fractions, make their denominators the same.
To make the fractions' denominators the same - we have to:
1) calculate their common denominator
2) then calculate the expanding number of each fraction
3) then make their denominators the same by expanding the fractions to equivalent forms, which all have equal denominators
Calculate the common denominator
The common denominator is nothing else than the least common multiple (LCM) of the denominators of the fractions.
The LCM will be the common denominator of the compared fractions.
To calculate the LCM, we need the prime factorization of the denominators:
111 = 3 × 37
134 = 2 × 67
Multiply all the unique prime factors: if there are repeating prime factors we only take them once, and only the ones having the highest exponent (the highest powers).
LCM (111, 134) = 2 × 3 × 37 × 67 = 14,874
Calculate the expanding number of each fraction:
Divide the LCM by the denominator of each fraction.
- 188/111 : 14,874 ÷ 111 = (2 × 3 × 37 × 67) ÷ (3 × 37) = 134
- 191/134 : 14,874 ÷ 134 = (2 × 3 × 37 × 67) ÷ (2 × 67) = 111
Make the fractions' denominators the same:
Expand each fraction: multiply both its numerator and denominator by its corresponding expanding number, calculated at the step 2, above.
This way all the fractions will have the same denominator:
- 188/111 = - (134 × 188)/(134 × 111) = - 25,192/14,874
- 191/134 = - (111 × 191)/(111 × 134) = - 21,201/14,874
The fractions have the same denominator, compare their numerators.
The larger the numerator the smaller the negative fraction.
The larger the numerator the larger the positive fraction.
The fractions sorted in ascending order:
- 25,192/14,874 < - 21,201/14,874
The initial fractions sorted in ascending order:
- 188/111 < - 191/134
::: The operation of comparing fractions :::
The final answer:
Sort the negative improper fractions in ascending order:
- 188/111 < - 191/134
All the fractions sorted in ascending order:
- 188/111 < - 191/134 < - 100/187
How are the numbers written: comma ',' used as a thousands separator; point '.' as a decimal separator; numbers rounded off to max. 12 decimals (if the case). Used symbols: '/' the fraction bar; ÷ dividing; × multiplying; + plus (adding); - minus (subtracting); = equal; ≈ approximately equal.
Other similar operations
Compare and sort common ordinary fractions, online calculator: