Using Models to Represent Fractions and Mixed Numbers

Learning Outcomes

Write fractions that represent portions of objects
Use fraction circles to make wholes given
Use models to visualize improper fractions and mixed numbers.

Representing Parts of a Whole as Fractions

Andy and Bobby love pizza. On Monday night, they share a pizza equally. How much of the pizza does each one get? Are you thinking that each boy gets half of the pizza? That’s right. There is one whole pizza, evenly divided into two parts, so each boy gets one of the two equal parts. In math, we write [latex]\frac{1}{2}[/latex] to mean one out of two parts. An image of a round pizza sliced vertically down the center, creating two equal pieces. Each piece is labeled as one half.

An image of a round pizza sliced vertically down the center, creating two equal pieces. Each piece is labeled as one half.

On Tuesday, Andy and Bobby share a pizza with their parents, Fred and Christy, with each person getting an equal amount of the whole pizza. How much of the pizza does each person get? There is one whole pizza, divided evenly into four equal parts. Each person has one of the four equal parts, so each has [latex]\frac{1}{4}[/latex] of the pizza. An image of a round pizza sliced vertically and horizontally, creating four equal pieces. Each piece is labeled as one fourth.

An image of a round pizza sliced vertically and horizontally, creating four equal pieces. Each piece is labeled as one fourth.

On Wednesday, the family invites some friends over for a pizza dinner. There are a total of [latex]12[/latex] people. If they share the pizza equally, each person would get [latex]\frac{1}{12}[/latex] of the pizza. An image of a round pizza sliced into twelve equal wedges. Each piece is labeled as one twelfth.

An image of a round pizza sliced into twelve equal wedges. Each piece is labeled as one twelfth.

Fractions

A fraction is written [latex]\frac{a}{b}[/latex], where [latex]a[/latex] and [latex]b[/latex] are integers and [latex]b\ne 0[/latex]. In a fraction, [latex]a[/latex] is called the numerator and [latex]b[/latex] is called the denominator.

A fraction is a way to represent parts of a whole. The denominator [latex]b[/latex] represents the number of equal parts the whole has been divided into, and the numerator [latex]a[/latex] represents how many parts are included. The denominator, [latex]b[/latex], cannot equal zero because division by zero is undefined. In the image below, the circle has been divided into three parts of equal size. Each part represents [latex]\frac{1}{3}[/latex] of the circle. This type of model is called a fraction circle. Other shapes, such as rectangles, can also be used to model fractions. A circle is divided into three equal wedges. Each piece is labeled as one third.

A circle is divided into three equal wedges. Each piece is labeled as one third.

Doing the Manipulative Mathematics activity Model Fractions will help you develop a better understanding of fractions, their numerators and denominators. What does the fraction [latex]\frac{2}{3}[/latex] represent? The fraction [latex]\frac{2}{3}[/latex] means two of three equal parts. A circle is divided into three equal wedges. Two of the wedges are shaded.

A circle is divided into three equal wedges. Two of the wedges are shaded.

Example

Name the fraction of the shape that is shaded in each of the figures. In part

Solution: We need to ask two questions. First, how many equal parts are there? This will be the denominator. Second, of these equal parts, how many are shaded? This will be the numerator. [latex-display]\begin{array}{cccc}\text{How many equal parts are there?}\hfill & & & \text{There are eight equal parts}\text{.}\hfill \\ \text{How many are shaded?}\hfill & & & \text{Five parts are shaded}\text{.}\hfill \end{array}[/latex-display] Five out of eight parts are shaded. Therefore, the fraction of the circle that is shaded is [latex]\frac{5}{8}[/latex]. [latex-display]\begin{array}{cccc}\text{How many equal parts are there?}\hfill & & & \text{There are nine equal parts}\text{.}\hfill \\ \text{How many are shaded?}\hfill & & & \text{Two parts are shaded}\text{.}\hfill \end{array}[/latex-display] Two out of nine parts are shaded. Therefore, the fraction of the square that is shaded is [latex]\frac{2}{9}[/latex].

Example

Shade [latex]\frac{3}{4}[/latex] of the circle. An image of a circle.

Answer: Solution The denominator is [latex]4[/latex], so we divide the circle into four equal parts ⓐ. The numerator is [latex]3[/latex], so we shade three of the four parts ⓑ. [latex]\frac{3}{4}[/latex] of the circle is shaded.

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Shade [latex]\frac{6}{8}[/latex] of the circle. A circle is divided into eight equal pieces.

Answer: A circle is shown divided into 8 pieces, of which 6 are shaded.

Shade [latex]\frac{2}{5}[/latex] of the rectangle. A rectangle is divided vertically into five equal pieces.

Answer: A rectangle is divided into 5 sections, of which 2 are shaded.

Watch the following video to see more examples of how to write fractions given a model. https://youtu.be/c_yIA4OQ4qA In earlier examples, we used circles and rectangles to model fractions. Fractions can also be modeled as manipulatives called fraction tiles, as shown in the image below. Here, the whole is modeled as one long, undivided rectangular tile. Beneath it are tiles of equal length divided into different numbers of equally sized parts.

One long, undivided rectangular tile is shown, labeled

We’ll be using fraction tiles to discover some basic facts about fractions. Refer to the fraction tiles above to answer the following questions:

How many [latex]\frac{1}{2}[/latex] tiles does it take to make one whole tile?	It takes two halves to make a whole, so two out of two is [latex]\frac{2}{2}=1[/latex].
How many [latex]\frac{1}{3}[/latex] tiles does it take to make one whole tile?	It takes three thirds, so three out of three is [latex]\frac{3}{3}=1[/latex].
How many [latex]\frac{1}{4}[/latex] tiles does it take to make one whole tile?	It takes four fourths, so four out of four is [latex]\frac{4}{4}=1[/latex].
How many [latex]\frac{1}{6}[/latex] tiles does it take to make one whole tile?	It takes six sixths, so six out of six is [latex]\frac{6}{6}=1[/latex].
What if the whole were divided into [latex]24[/latex] equal parts? (We have not shown fraction tiles to represent this, but try to visualize it in your mind.) How many [latex]\frac{1}{24}[/latex] tiles does it take to make one whole tile?	It takes [latex]24[/latex] twenty-fourths, so [latex]\frac{24}{24}=1[/latex].

It takes [latex]24[/latex] twenty-fourths, so [latex]\frac{24}{24}=1[/latex]. This leads us to the Property of One.

Property of One

Any number, except zero, divided by itself is one. [latex-display]\frac{a}{a}=1\left(a\ne 0\right)[/latex-display]

Doing the Manipulative Mathematics activity "Fractions Equivalent to One" will help you develop a better understanding of fractions that are equivalent to one

Example

Use fraction circles to make wholes using the following pieces:

[latex]4[/latex] fourths
[latex]5[/latex] fifths
[latex]6[/latex] sixths

Answer: Solution Three circles are shown. The circle on the left is divided into four equal pieces. The circle in the middle is divided into five equal pieces. The circle on the right is divided into six equal pieces. Each circle says

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Use fraction circles to make wholes with the following pieces: [latex]3[/latex] thirds.

Answer: A circle is shown. It is divided into 3 equal pieces. All 3 pieces are shaded.

Use fraction circles to make wholes with the following pieces: [latex]8[/latex] eighths.

Answer: A circle is divided into 8 sections, of which all are shaded.

What if we have more fraction pieces than we need for [latex]1[/latex] whole? We’ll look at this in the next example.

Example

Use fraction circles to make wholes using the following pieces:

[latex]3[/latex] halves
[latex]8[/latex] fifths
[latex]7[/latex] thirds

Answer: Solution 1. [latex]3[/latex] halves make [latex]1[/latex] whole with [latex]1[/latex] half left over. Two circles are shown, both divided into two equal pieces. The circle on the left has both pieces shaded and is labeled as 2. [latex]8[/latex] fifths make [latex]1[/latex] whole with [latex]2[/latex] fifths left over. 3. [latex]7[/latex] thirds make [latex]2[/latex] wholes with [latex]2[/latex] thirds left over. Three circles are shown, all divided into three equal pieces. The two circles on the left have all three pieces shaded and are labeled with ones. The circle on the right has one piece shaded and is labeled as one third.

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Use fraction circles to make wholes with the following pieces: [latex]5[/latex] thirds.

Answer: Two circles are shown. Each is divided into three sections. All of the first circle is shaded. 2 out of 3 sections of the second circle are shaded.

Use fraction circles to make wholes with the following pieces: [latex]5[/latex] halves.

Answer: Three circles are shown. Each is divided into two sections. The first two circles are completely shaded. Half of the third circle is shaded.

Model Improper Fractions and Mixed Numbers

In an earlier example, you had eight equal fifth pieces. You used five of them to make one whole, and you had three fifths left over. Let us use fraction notation to show what happened. You had eight pieces, each of them one fifth, [latex]\frac{1}{5}[/latex], so altogether you had eight fifths, which we can write as [latex]\frac{8}{5}[/latex]. The fraction [latex]\frac{8}{5}[/latex] is one whole, [latex]1[/latex], plus three fifths, [latex]\frac{3}{5}[/latex], or [latex]1\frac{3}{5}[/latex], which is read as one and three-fifths. The number [latex]1\frac{3}{5}[/latex] is called a mixed number. A mixed number consists of a whole number and a fraction.

Mixed Numbers

A mixed number consists of a whole number [latex]a[/latex] and a fraction [latex]\frac{b}{c}[/latex] where [latex]c\ne 0[/latex]. It is written as follows. [latex-display]a\frac{b}{c}\text{, }c\ne 0[/latex-display]

Fractions such as [latex]\frac{5}{4},\frac{3}{2},\frac{5}{5}[/latex], and [latex]\frac{7}{3}[/latex] are called improper fractions. In an improper fraction, the numerator is greater than or equal to the denominator, so its value is greater than or equal to one. When a fraction has a numerator that is smaller than the denominator, it is called a proper fraction, and its value is less than one. Fractions such as [latex]\frac{1}{2},\frac{3}{7}[/latex], and [latex]\frac{11}{18}[/latex] are proper fractions.

Proper and Improper Fractions

The fraction [latex]\frac{a}{b}[/latex] is a proper fraction if [latex]a<b[/latex] and an improper fraction if [latex]a\ge b[/latex].

Doing the Manipulative Mathematics activity "Model Improper Fractions" and "Mixed Numbers" will help you develop a better understanding of how to convert between improper fractions and mixed numbers.

Example

Name the improper fraction modeled. Then write the improper fraction as a mixed number. Two circles are shown, both divided into three equal pieces. The circle on the left has all three pieces shaded. The circle on the right has one piece shaded.

Two circles are shown, both divided into three equal pieces. The circle on the left has all three pieces shaded. The circle on the right has one piece shaded.

Solution: Each circle is divided into three pieces, so each piece is [latex]\frac{1}{3}[/latex] of the circle. There are four pieces shaded, so there are four thirds or [latex]\frac{4}{3}[/latex]. The figure shows that we also have one whole circle and one third, which is [latex]1\frac{1}{3}[/latex]. So, [latex]\frac{4}{3}=1\frac{1}{3}[/latex].

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[ohm_question]145976[/ohm_question] [ohm_question]145977[/ohm_question]

Example

Draw a figure to model [latex]\frac{11}{8}[/latex].

Answer: Solution: The denominator of the improper fraction is [latex]8[/latex]. Draw a circle divided into eight pieces and shade all of them. This takes care of eight eighths, but we have [latex]11[/latex] eighths. We must shade three of the eight parts of another circle. Two circles are shown, both divided into eight equal pieces. The circle on the left has all eight pieces shaded and is labeled as eight eighths. The circle on the right has three pieces shaded and is labeled as three eighths. The diagram indicates that eight eighths plus three eighths is one plus three eighths. So, [latex]\frac{11}{8}=1\frac{3}{8}[/latex].

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Draw a figure to model [latex]\frac{7}{6}[/latex].

Answer: Two circles are shown. Each is divided into six sections. All of the first circle is shaded and one section of the second circle is shaded.

Draw a figure to model [latex]\frac{6}{5}[/latex].

Answer: Two circles are shown. Each is divided into five sections. All of the first circle is shaded and one section of the second circle is shaded.

Example

Use a model to rewrite the improper fraction [latex]\frac{11}{6}[/latex] as a mixed number.

Answer: Solution: We start with [latex]11[/latex] sixths [latex]\left(\frac{11}{6}\right)[/latex]. We know that six sixths makes one whole. [latex-display]\frac{6}{6}=1[/latex-display] That leaves us with five more sixths, which is [latex]\frac{5}{6}\left(11\text{sixths minus}6\text{sixths is}5\text{sixths}\right)[/latex]. So, [latex]\frac{11}{6}=1\frac{5}{6}[/latex].

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[ohm_question]145982[/ohm_question]

In the next video we show another way to draw a model that represents a fraction. You will see example of both proper and improper fractions shown. https://youtu.be/akyByv80Uzc

Example

Use a model to rewrite the mixed number [latex]1\frac{4}{5}[/latex] as an improper fraction.

Answer: Solution: The mixed number [latex]1\frac{4}{5}[/latex] means one whole plus four fifths. The denominator is [latex]5[/latex], so the whole is [latex]\frac{5}{5}[/latex]. Together five fifths and four fifths equals nine fifths. So, [latex]1\frac{4}{5}=\frac{9}{5}[/latex]. Two circles are shown, both divided into five equal pieces. The circle on the left has all five pieces shaded and is labeled as 5 fifths. The circle on the right has four pieces shaded and is labeled as 4 fifths. It then says that 5 fifths plus 4 fifths equals 9 fifths and that 9 fifths is equal to one plus 4 fifths.

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[ohm_question]145981[/ohm_question]

Licenses & Attributions

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Question ID 145976, 145977, 145974, 145981, 145982, . Authored by: Lumen Learning. License: CC BY: Attribution. License terms: IMathAS Community License CC-BY + GPL.

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Ex: Determine the Fraction Modeled. Authored by: James Sousa (Mathispower4u.com). License: CC BY: Attribution.
Draw Models of Fractions and Explain the Meaning of the Fraction. Authored by: James Sousa (Mathispower4u.com). License: CC BY: Attribution.

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Prealgebra. Provided by: OpenStax License: CC BY: Attribution. License terms: Download for free at http://cnx.org/contents/[email protected].

Study Guides > Prealgebra

Using Models to Represent Fractions and Mixed Numbers

Learning Outcomes

Representing Parts of a Whole as Fractions

Fractions

Example

Example

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Property of One

Example

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Example

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Model Improper Fractions and Mixed Numbers

Mixed Numbers

Proper and Improper Fractions

Example

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Example

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Example

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Example

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Licenses & Attributions

CC licensed content, Original

CC licensed content, Shared previously

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