Lesson 10
The Numbers in Subtraction
Warmup: Number Talk: Groups of Twelfths (10 minutes)
Narrative
This Number Talk encourages students to use what they learned about products of a whole number and a fraction, the relationship between each pair of factors, and the structure in the expressions to mentally solve problems.
Students may write all the products as fractions, including the ones greater than 1. If everyone expresses the last three products only as \(\frac{18}{12}\), \(\frac{36}{12}\), and \(\frac{360}{12}\), during the synthesis, ask if students could write wholenumber or mixednumber equivalents for these fractions. The reasoning elicited here will be helpful later in the lesson when students decompose whole numbers in order to subtract fractional amounts.
Launch
 Display one expression.
 “Give me a signal when you have an answer and can explain how you got it.”
 1 minute: quiet think time
Activity
 Record answers and strategy.
 Keep expressions and work displayed.
 Repeat with each expression.
Student Facing
Find the value of each expression mentally.
 \(2 \times \frac{3}{12}\)
 \(6 \times \frac{3}{12}\)
 \(12 \times \frac{3}{12}\)
 \(12 \times \frac{30}{12}\)
Student Response
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Activity Synthesis
 “In which expressions might it be helpful to use 1 whole—or 12 twelfths—to find the product? How?” (The first three. We know 4 groups of \(\frac{3}{12}\) make 1 whole, so:
 2 groups of \(\frac{3}{12}\) make \(\frac{1}{2}\)
 6 groups of \(\frac{3}{12}\) make \(1\frac{1}{2}\)
 12 groups of \(\frac{3}{12}\) make 3
 “Why might it be a little harder to think of the last expression in terms of 12 twelfths?” (The 30 in \(\frac{30}{12}\) is not a factor or a multiple of 12.)
 Consider asking:
 “Who can restate _____'s reasoning in a different way?”
 “Did anyone have the same strategy but would explain it differently?”
 “Did anyone approach the expression in a different way?”
 “Does anyone want to add on to _____’s strategy?”
Activity 1: What’s Left? (20 minutes)
Narrative
This is a 5 Practices activity. Students use any strategy that makes sense to them to reason about subtraction of a fraction from a whole number. They begin by using an image to support their reasoning. Later, when no image is given, students may use a variety of ways to find differences. In the synthesis students share, explain, and relate different strategies for solving the problem (MP3).
Monitor for the following strategies, listed from concrete to abstract, and select students to share during synthesis:
 Draw a diagram showing whole numbers and unit fractions and remove parts of the diagram.
 Create a number line that is partitioned into thirds and draw jumps to the left.
 Reason in terms of addition (for instance, how many thirds to add to \(\frac{5}{3}\) to reach 4?).
 Subtract in multiple rounds (for example, to subtract \(2\frac{1}{3}\) from 4, first subtract 2 wholes, and then subtract 1 third).
 Decompose or rewrite a whole number or a fraction before subtracting.
 To subtract \(\frac{5}{3}\) from 4, first decompose \(\frac{5}{3}\) into \(\frac{3}{3} + \frac{2}{3}\), or \(1 + \frac{2}{3}\), then subtract.
 To subtract \(2\frac{1}{3}\) from 4, first decompose 4 into \(3 + \frac{3}{3}\) and decompose \(2\frac{1}{3}\) into \(2 + \frac{1}{3}\), and then subtract. Or, rewrite 4 and \(2\frac{1}{3}\) as \(\frac{12}{3}\) and \(\frac{7}{3}\) and then subtract.
At this point, students are not expected to decompose or rewrite numbers using expressions and equations. They may perform the reasoning intuitively and informally. Later, they will formalize the different ways of recording the decomposition of numbers for subtraction.
Supports accessibility for: Conceptual Processing, VisualSpatial Processing
Launch
 Groups of 2
 Display the image of the graduated pitcher.
 “What do you notice? What do you wonder?”
 1 minute: quiet think time
 1 minute: partner discussion
 “Let’s now solve some problems about pouring a drink out of a pitcher.”
Activity
 7–10 minutes: independent work time
 2 minutes: partner discussion
 Monitor for the different strategies used, as noted in the Activity Narrative.
Student Facing

A pitcher contains 3 cups of watermelon juice.
How many cups will be left in the pitcher if we pour each of the following amounts from the full amount?
 \(\frac{1}{4}\) cup
 \(\frac{5}{4}\) cups
 \(1\frac{1}{4}\) cups
 \(2\frac{2}{4}\) cups

A second pitcher contains 4 cups of water. How many cups will be left in that pitcher if we pour each of the following amounts from the full amount?
Explain or show your reasoning. Use diagrams or equations, if they are helpful. \(\frac{1}{3}\) cup
 \(\frac{5}{3}\) cups
 \(2\frac{2}{3}\) cups
Student Response
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Advancing Student Thinking
 “What is happening in this situation?”
 “What are we trying to find out?” and “What information do we have?”
 “What mathematical operation can help us answer this question?”
 “What expression would we use to represent the amount of liquid?”
Activity Synthesis
 “How did you find the result of subtracting each fraction from 4, without physically pouring out \(\frac {1}{3}\), \(\frac{5}{3}\), or \(2\frac{2}{3}\) cups of water out of a 4cup pitcher?”
 Select students who used different strategies in the second problem to share their responses, in the order listed in the Activity Narrative.
 Record all the ways students decomposed or rewrote the numbers in the problem to facilitate subtraction (whether or not they wrote expressions or equations).
Activity 2: Card Sort: Twelfths (15 minutes)
Narrative
 writing an equivalent fraction for the whole number
 decomposing the whole number into a sum of smaller numbers, which could be fractions, or a whole number and a fraction
Students sort a set of cards (with a number or an expression) into two groups and justify the categories. Each card has a value equivalent to either \(1 – \frac{5}{12}\) or \(2 – \frac{5}{12}\). Though students may sort the cards in a few valid ways, the discussion should focus on the value on the cards. Students then apply their insights from the sorting work to subtract a fraction from whole numbers. This sorting task gives students opportunities to analyze representations, statements, and structures closely and make connections (MP2, MP7).
Here is a list of the numbers or expressions on the blackline master, for reference:
A.
\(1\frac{5}{12}\)
B.
\(\frac{12}{12} + \frac{12}{12} \frac{5}{12}\)
C.
\(\frac{24}{12}  \frac{5}{12} \)
D.
\(\frac{7}{12}\)
E.
\(1\frac{7}{12}\)
F.
\(2\frac{5}{12}\)
G.
\(\frac{12}{12}  \frac{5}{12} \)
H.
\(\frac{19}{12}\)
I.
\(1 + 1 \frac{5}{12}\)
J.
\(1 + \frac{12}{12} \frac{5}{12}\)
This activity uses MLR2 Collect and Display. Advances: conversing, reading, writing
Required Materials
Materials to Copy
 Card Sort: Twelfths
Required Preparation
 Create a set of cards for each group of 2.
Launch
 Groups of 2 or 4
 Give each group one set of cards from the blackline master.
Activity
 “Work with your group to sort these cards into two groups. Be prepared to explain why the cards in each group belong together.”
 5 minutes: group work time on the first problem
 Monitor for the ways students sort the cards. Identify those who sort the cards by their value or by their equivalence to \(1 – \frac{5}{12}\) and \(2 – \frac{5}{12}\).
MLR2 Collect and Display
 Circulate, listen for, and collect the language students use to describe the features of the expressions on the cards or the connections between expressions. Listen for terms such as “equivalent,” or “equivalent fractions,” “equal,” “sum,” “difference,” and “decompose.”
 Record students’ words and phrases on a visual display and update it throughout the lesson.
 Pause before students proceed to the next problem. Select a few groups to share their sorting decisions, ending with a group that sorted the cards by value.
 “Let’s look at that last way of sorting. The cards in each group have the same value, and that value is a result of subtracting a whole number by a fraction.”
 Display the cards as shown:
 “Turn to a partner. Talk about how each card is related to the one below it. Do this for each group of cards.”
 2 minutes: partner discussion
 Select 2–3 students to share the connections between the expressions in each group. Highlight that:
 In the first group, the 1 can be written as an equivalent fraction, \(\frac{12}{12}\), which is helpful for subtracting \(\frac{5}{12}\).
 In the second group, the 2 can be rewritten as an equivalent fraction, \(\frac{24}{12}\), or decomposed into a sum of \(1+1\), which is equivalent to \(1 + \frac{12}{12}\). Both strategies help us to subtract \(\frac{5}{12}\).
 5 minutes: independent work on the second problem
Student Facing

Sort the cards from your teacher into two groups. Record your sorted expressions. Be prepared to explain why the cards in each group belong together.

Find the value of each difference. Show your reasoning.
 \(1  \frac{5}{8}\)
 \(2  \frac{7}{8}\)
 \(3  \frac{9}{8}\)
Student Response
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Activity Synthesis
 See lesson synthesis.
Lesson Synthesis
Lesson Synthesis
“Today we learned that we can subtract a fraction from a whole number by either rewriting the whole number as a fraction, or by decomposing the whole number.”
Select students to share how they found the three differences in the last problem in the last activity. As students explain, update the display by adding or replacing language or annotations.
“Are there any other words or phrases that are important to include on our display?”
Highlight explanations that show that:
 The 1 in \(1 – \frac{5}{8}\) can be written as \(\frac{8}{8}\).
 The 2 in \(2 –\frac{7}{8}\) can be written as \(\frac{16}{8}\) or decomposed into \(1 + \frac{8}{8}\).
 The 3 in \(3 – \frac{9}{8}\) can be written as \(\frac{24}{8}\) or decomposed into \(1 + \frac{16}{8}\) (among other sums).
 Writing an equivalent fraction and decomposing the whole number both make it easier to find each difference.
Remind students to borrow language from the display as needed in future activities.
Cooldown: Two Differences (5 minutes)
CoolDown
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