Multiply and Divide Fractions
Selected Reading
- Word Problem Involving Fractions and Division
- Modeling Division of a Whole Number by a Fraction
- Fact Families for Multiplication and Division of Fractions
- Fraction Division
- Division Involving a Whole Number and a Fraction
- The Reciprocal of a Number
- Word Problem Involving Fractions and Multiplication
- Multiplication of 3 Fractions
- Modeling Multiplication of Proper Fractions
- Determining if a Quantity is Increased or Decreased When Multiplied by a Fraction
- Product of a Fraction and a Whole Number Problem Type 2
- Fraction Multiplication
- Introduction to Fraction Multiplication
- Product of a Fraction and a Whole Number: Problem Type 1
- Product of a Unit Fraction and a Whole Number
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Selected Reading
- Who is Who
- Computer Glossary
- HR Interview Questions
- Effective Resume Writing
- Questions and Answers
- UPSC IAS Exams Notes
Modeling Multiplication of Proper Fractions
Modepng Multippcation of Proper Fractions
Let’s use an area model to multiply fractions. The area model gives us a good picture of what happens when we multiply two fractions. We see the problem in two dimensions. We represent the height using one fraction and the width using another fraction. It is important to see this kind of connections in mathematics.
Multiply the fractions using an area model $frac{1}{3}$ × $frac{1}{3}$
Solution
Step 1:
In this problem, we want to find $frac{1}{3}$ of $frac{1}{3}$
Step 2:
First we spanide the height of a rectangle into 3 equal parts.
Step 3:
We shade one part to represent $frac{1}{3}$
Step 4:
Next we spanide the width into 3 equal parts and shade 1 part to make it $frac{1}{3}$
Step 5:
Now we can figure out the product. The part where the shading overlaps represents the numerator. The total number of parts represents the denominator. There are 9 total parts and 1 of the parts overlaps.
Step 6:
So, the product is $frac{1}{9}$.
$frac{1}{3}$ × $frac{1}{3}$ = $frac{1}{9}$
Multiply the fractions using an area model $frac{2}{3}$ × $frac{1}{3}$
Solution
Step 1:
In this problem, we want to find $frac{2}{3}$ of $frac{1}{3}$
Step 2:
First we spanide the height of a rectangle into 3 equal parts.
Step 3:
We shade one part to represent $frac{1}{3}$
Step 4:
Next we spanide the width into 3 equal parts and shade 2 parts to make it $frac{2}{3}$
Step 5:
Now we can figure out the product. The part where the shading overlaps represents the numerator. The total number of parts represents the denominator. There are 9 total parts and 2 of the parts overlaps.
Step 6:
So, the product is $frac{2}{9}$.
$frac{2}{3}$ × $frac{1}{3}$ = $frac{2}{9}$
Multiply the fractions using an area model $frac{1}{2}$ × $frac{1}{3}$
Solution
Step 1:
In this problem, we want to find $frac{1}{2}$ of $frac{1}{3}$
Step 2:
First we spanide the height of a rectangle into 3 equal parts.
Step 3:
We shade one part to represent $frac{1}{3}$
Step 4:
Next we spanide the width into 2 equal parts and shade 1 part to make it $frac{1}{2}$
Step 5:
Now we can figure out the product. The part where the shading overlaps represents the numerator. The total number of parts represents the denominator. There are 6 total parts and 1 of the parts overlaps.
Step 6:
So, the product is $frac{1}{6}$.
$frac{1}{2}$ × $frac{1}{3}$ = $frac{1}{6}$