Lesson 9

Diferencias de fracciones

Warm-up: Verdadero o falso: Sumas de décimos (10 minutes)

Narrative

This warm-up prompts students to reason about sums of fractions with the same denominator and to apply their understanding of equivalence, especially of whole numbers and fractions. The reasoning here will be helpful as students explore subtraction of fractions later in the lesson.

Launch

  • Display one statement.
  • “Hagan una señal cuando sepan si la afirmación es verdadera o no, y puedan explicar cómo lo saben” // “Give me a signal when you know whether the statement is true and can explain how you know.”
  • 1 minute: quiet think time

Activity

  • Share and record answers and strategy.
  • Repeat with each statement.

Student Facing

En cada caso, decide si la afirmación es verdadera o falsa. Prepárate para explicar tu razonamiento.

  • \(\frac{1}{10}+\frac{2}{10}+\frac{3}{10}=1\)
  • \(1+\frac{7}{10}=\frac{3}{10} + \frac{4}{10} + \frac{10}{10} \)
  • \(\frac{5}{10}+1=\frac{6}{10}\)
  • \(\frac{2}{10}+\frac{10}{10}= 1 + \frac {1}{5}\)

Student Response

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Activity Synthesis

  • “¿Cómo pueden explicar su respuesta sin tener que encontrar el valor de ambos lados?” // “How can you explain your answer without finding the value of both sides?”
  • Consider asking:
    • “¿Alguien puede expresar el razonamiento de ___ de otra forma?” // “Who can restate ___ ’s reasoning in a different way?”
    • “¿Alguien quiere agregar algo al razonamiento de _____?” // “Does anyone want to add on to _____ ’s reasoning?”

Activity 1: Saltemos para restar (20 minutes)

Narrative

In this activity, students reason about differences of fractions on a number line and write equations for number line diagrams that represent subtraction. They subtract a fraction from another fraction, as well as a whole number from a fraction, applying what they know about equivalence of whole numbers and fractions to facilitate their reasoning. When students decide whether or not they agree with Noah and explain their reasoning, they critique the reasoning of others (MP3).

In earlier grades, students used number lines to reason about subtraction of whole numbers. To find the value of \(42 - 15\), for example, they could start at 42 and jump 15 spaces to the left (or jump 2 spaces to 40, and then 10 spaces to 30, and 3 more to 27). They could also think in terms of addition—“What number added to 15 gives 42?”—and start at 15 and see how many spaces it takes to get to 42.

Students may reason about subtraction of fractions the same way here. For instance, to find \(\frac{8}{3} - \frac{2}{3}\), they may:

  • Start at \(\frac{8}{3}\) and jump 2 thirds to the left. The difference is the point where the arrow lands.
    Number line.
  • Start at \(\frac{2}{3}\) and see how many thirds are needed to reach \(\frac{8}{3}\). The difference is the distance between the two points.
    Number Line.
    ​​​​​
MLR8 Discussion Supports. Synthesis: Display sentence frames to support small-group discussion: “_____ y _____ son lo mismo porque . . .” // “_____ and _____ are the same because . . .”, and “Me pregunto si . . .” // “I wonder if . . . .”
Advances: Conversing, Representing
Engagement: Develop Effort and Persistence. Differentiate the degree of difficulty or complexity. Some students may benefit from reviewing subtraction on the number line with whole numbers. For example, display a number line with two jumps that represents \(11-7\). Invite students to write and discuss the equation represented in the diagram.
Supports accessibility for: Conceptual Processing, Visual-Spatial Processing

Launch

  • Groups of 2
  • Display the first three number line diagrams in the activity.
  • “¿En qué se parecen estos diagramas y los diagramas que vimos en una lección anterior? ¿En qué son diferentes?” // “How are these diagrams the same as the diagrams we saw in an earlier lesson? How are they different?” (Same: They use jumps to show a change. Each space between tick marks represents a unit fraction. Different: There is only one jump. The arrows point to the left.)
  • 1 minute: quiet think time
  • Share responses.
  • “¿Cómo sabemos que el punto representa \(\frac{11}{6}\)?” // “How do we know that the point represents \(\frac{11}{6}\)?” (Each space represents 1 sixth. The point is 11 sixths from 0.)

Activity

  • “Cada diagrama de Noah representa una resta. Piensen qué número se le está restando a \(\frac{11}{6}\) y cuál sería el resultado de la resta” // “Each of Noah's diagrams represents subtraction from \(\frac{11}{6}\). Think about what number is being subtracted and what the result of the subtraction might be.”
  • “Trabajen con su compañero en los dos primeros problemas” // “Work with your partner on the first two problems.”
  • 5–7 minutes: partner work time
  • Invite students to share their responses to the first problem.
  • “¿Dónde se ven los números que se están restando?” // “Where do you see the numbers being subtracted?” (The number of spaces jumped)
  • “¿Dónde se ve el resultado de la resta?” // “Where do you see the result of the subtraction?” (The point where the arrow lands)
  • For the second problem, poll the class on which equations they thought the diagram could represent (for example: only the first, only the second, only the third, the first two, all three, and so on). Invite students from each camp to share their reasoning.
  • Make sure students recognize why the diagram can represent all three equations. (See Student Responses.)
  • 2 minutes: independent work on the last problem

Student Facing

  1. Noah dibuja “saltos” en algunas rectas numéricas para restarle distintas fracciones a \(\frac{11}{6}\).
    Number line. 13 evenly spaced tick marks. 
    Number line. 13 evenly spaced tick marks.
    Number line. 13 evenly spaced tick marks. 
    1. El primer diagrama muestra cómo Noah encuentra \(\frac{11}{6} - \frac{7}{6}\). ¿Cuál es el valor de \(\frac{11}{6} - \frac{7}{6}\)?
    2. Escribe una ecuación que muestre la diferencia que está representada por cada uno de los diagramas de Noah.
  2. Noah dibuja este otro diagrama:
    Number line. 13 evenly spaced tick marks. 

    ¿Cuáles ecuaciones podría representar el diagrama? Explica tu razonamiento.

    \(\frac{11}{6} - \frac{6}{6} = \frac{5}{6}\)

    \(\frac{11}{6} - 1 = \frac{5}{6}\)

    \(1\frac{5}{6} - 1= \frac{5}{6}\)

  3. Usa una recta numérica para representar cada diferencia y para encontrar su valor.

    1. \(\frac{8}{3} - \frac{2}{3}\)
      Number line. Evenly spaced tick marks. First tick mark, 0. Fourth tick mark, 1.
    2. \(\frac{8}{3} - \frac{4}{3}\)
      Number line. Evenly spaced tick marks. First tick mark, 0. Fourth tick mark, 1.
    3. \(\frac{8}{3} - 1\)
      Number line. Evenly spaced tick marks. First tick mark, 0. Fourth tick mark, 1.

Student Response

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Advancing Student Thinking

If students find a value for \(\frac{8}{3} – 1\) other than \(\frac{5}{3}\) or \(1\frac{2}{3}\), consider asking: “¿De qué otra forma podemos representar 1 unidad usando tercios?” // “How else can we represent 1 whole using thirds?” and “¿Cómo nos ayuda eso a mostrar la diferencia en esta recta numérica?” // “How might we use this to help show the difference on this number line?”

Activity Synthesis

  • Focus the discussion on the last expression \(\frac{8}{3} – 1\).
  • “¿Cómo le restaron 1, que es un número entero, a \(\frac{8}{3}\), que es una fracción?” // “How did you subtract 1, a whole number, from \(\frac{8}{3}\), a fraction?” (Start at \(\frac{8}{3}\) and jump to the left 3 thirds, to land at \(\frac{5}{3}\). Start at 1 and find out how far to jump to the right to reach \(\frac{8}{3}\).)
  • “¿Cómo podrían restarle 1 a \(\frac{8}{3}\) si no tuvieran una recta numérica?” // “How could you subtract 1 from \(\frac{8}{3}\) if you didn’t have a number line?” (I could:
    • Think of 1 as \(\frac{3}{3}\) and subtract \(\frac{3}{3}\) from \(\frac{8}{3}\), which gives \(\frac{5}{3}\).
    • Think about how many thirds to add to \(\frac{3}{3}\) to get \(\frac{8}{3}\).
    • Think of \(\frac{8}{3}\) as \(2\frac{2}{3}\) and subtract 1 from it, which gives \(1\frac{2}{3}\).)

Activity 2: ¿Cuál es la diferencia? (15 minutes)

Narrative

In this activity, students use number lines to represent subtraction of a fraction by another fraction with the same denominator—including a mixed number—and by a whole number. Locating a fraction greater than 1 on the number line prompts students to decompose the fraction mentally into a whole number and a fractional part, rather than to rely on counting tick marks. Representing subtraction of a whole number on the number line encourages students to use their knowledge of whole-number equivalents of fractions and to look for and make use of structure (MP7). For example, when subtracting 1 from \(\frac{13}{8}\), it helps to think of 1 as \(\frac{8}{8}\), and when subtracting 1 from a mixed number such as \(1\frac{5}{8}\), it helps to notice that \(1\frac{5}{8}\) is \(1 + \frac{5}{8}\).

As before, students may reason about subtraction in terms of removing an amount or finding an unknown addend, resulting in different number line diagrams. While students may rely on number lines to find each difference, the reasoning they do here prompts them to notice patterns and to think flexibly, preparing them to reason numerically in upcoming lessons.

Launch

  • Groups of 2

Activity

  • “Trabajen en silencio por unos minutos. Luego, compartan sus respuestas con su compañero” // “Take a few quiet minutes to work on the task. Then, share your responses with your partner.”
  • 5–7 minutes: independent work time
  • 2–3 minutes: partner discussion
  • Monitor for the different strategies students use to locate \(\frac{13}{8}\) on the number line and to represent subtraction by 1 and \(1\frac{4}{8}\).

Student Facing

Usa una recta numérica para representar cada diferencia y para encontrar su valor.

  1. \(\frac{13}{8} - \frac{2}{8}\)

    Number line. Evenly spaced tick marks. First tick mark, 0. Ninth tick mark, 1.
  2. \(\frac{13}{8} - \frac{6}{8}\)

    Number line. Evenly spaced tick marks. First tick mark, 0. Ninth tick mark, 1.
  3. \(\frac{13}{8} - 1\)

    Number line. Evenly spaced tick marks. First tick mark, 0. Ninth tick mark, 1.
  4. \(1\frac{5}{8} - \frac{7}{8}\)

    Number line. Evenly spaced tick marks. First tick mark, 0. Ninth tick mark, 1.
  5. \(1\frac{5}{8} - 1\)

    Number line. Evenly spaced tick marks. First tick mark, 0. Ninth tick mark, 1.
  6. \(1\frac{5}{8} - 1\frac{4}{8}\)

    Number line. Evenly spaced tick marks. First tick mark, 0. Ninth tick mark, 1.

Student Response

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Activity Synthesis

  • Select students to share their responses and completed diagrams.
  • Focus the discussion on expressions that involve subtraction by a whole number or by a mixed number.
  • Display the third and fifth expressions side by side: \(\frac{13}{8} - 1\) and \(1\frac{5}{8} - 1\).
  • “Piensen en la estrategia que usaron para representar cada expresión en la recta numérica. ¿Usaron la misma estrategia para encontrar el valor de la expresión? Si es así, ¿cuál fue su estrategia? Si no, ¿qué fue diferente?” // “Did you use the same strategy to represent these expressions on the number line and to find the value? If so, what was your strategy? If not, what was different?”
  • Display the fourth and last expressions side by side: \(1\frac{5}{8} - \frac{4}{8}\) and \(1\frac{5}{8} - 1\frac{4}{8}\). Ask students to compare how they found the value of these expressions.
  • See lesson synthesis.

Activity 3: Hagamos un salto, en versión de resta [OPTIONAL] (15 minutes)

Narrative

This optional activity gives students an additional opportunity to practice using “jumps” on number lines to subtract fractions, decomposing any whole numbers as needed along the way. (It is similar in structure to an optional activity in an earlier lesson on addition.)

Students are given four number lines with a point marked on each. They then draw a card with a fraction on it. All fractions on the cards, shown here, are greater than the values of the points. Students make one or more jumps to find the difference of the two points and then represent it with a subtraction equation. 

\(\frac{8}{5} \qquad \frac{9}{5} \qquad \frac{10}{5} \qquad \frac{11}{5} \qquad \frac{12}{5} \qquad \frac{13}{5} \qquad \frac{14}{5} \qquad \frac{15}{5}\)

Required Materials

Materials to Copy

  • Make a Jump, Subtraction Edition

Required Preparation

  • Create a set of cards from the blackline master for each group of 2.

Launch

  • Groups of 2
  • Give each group a set of fraction cards from the blackline master.
  • If students did not complete the optional activity in the previous lesson (which had a similar structure):
    • Display the four number lines.
    • “¿Qué observan? ¿Qué se preguntan?” // “What do you notice? What do you wonder?”
    • 30 seconds: quiet think time
    • 30 seconds: partner discussion

Activity

  • “Marquen cada punto de la recta numérica con una fracción que esté representada por el punto. Este punto es su fracción objetivo” // “Label each point on the number line with a fraction it represents. This is your target.”
  • 1 minute: independent work time
    • “Ahora van a dar uno o más saltos desde otra fracción hasta su objetivo. Van a escribir una ecuación que represente la diferencia entre ambas” // “You will now make one or more jumps from another fraction to your target and write an equation to represent the difference between the two.”
  • Explain how to use the cards and how to complete the task.
  • Monitor for students who facilitate subtraction by:
    • rewriting a fraction on their card as a whole number or a mixed number
    • labeling their number lines with whole numbers beyond 1

Student Facing

Estas son cuatro rectas numéricas. En cada una se muestra un punto. Márcalo con la fracción que representa.

  1. Number line. Evenly spaced tick marks. First tick mark, 0. Sixth tick mark, 1. Point at eighth tick mark, no label.
  2. Number line. Evenly spaced tick marks. First tick mark, 0. Point at fifth tick mark, no label. Sixth tick mark, 1.
  3. Number line. 16 evenly spaced tick marks. First tick mark, 0. Point at second tick mark, unlabeled. Sixth tick mark, 1.
  4. Number line. Evenly spaced tick marks. First tick mark, 0. Point at sixth tick mark, labeled 1.

En cada caso, el punto que marcaste va a ser tu objetivo.

  • Escoge una tarjeta del grupo que te dieron. Ubica y marca la fracción de la tarjeta en la recta numérica.
  • Partiendo de ese punto, dibuja uno o más saltos para llegar al objetivo. ¿Qué necesitas restar? Marca cada salto que dibujes.
  • Escribe una ecuación que represente la diferencia de tus dos fracciones.

Student Response

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Activity Synthesis

  • Select students to share their responses to the first couple of diagrams (or more if time permits).

Lesson Synthesis

Lesson Synthesis

“Hoy aprendimos a restarle una fracción a otra fracción y un número entero a una fracción. Usamos rectas numéricas como ayuda” // “Today we learned to subtract a fraction from a fraction and a whole number from a fraction. We used number lines to help us.”

“¿Cómo podríamos encontrar el valor de \(\frac{11}{8} - \frac{7}{8}\)?” // “How could we find the value of \(\frac{11}{8} - \frac{7}{8}\)?” (We could:

  • Start at \(\frac{11}{8}\) on a number line that is partitioned into eighths, and move to the left 7 spaces (7 eighths) to land at \(\frac{4}{8}\).
  • Subtract the numerators: removing 7 eighths from 11 eighths gives 4 eighths.
  • Start at \(\frac{7}{8}\) and think about how many eighths to add to reach \(\frac{11}{8}\).)

“¿Cómo podríamos encontrar el valor de \(\frac{11}{8} - 1\)?” // “How could we find the value of \(\frac{11}{8} - 1\)?” (We could:

  • Start at \(\frac{11}{8}\) and move to the left 8 spaces—because 1 is 8 eighths—to land at \(\frac{3}{8}\).
  • Think about how many eighths to add to 1 or \(\frac{8}{8}\) to get to \(\frac{11}{8}\).
  • Find \(\frac{11}{8} - \frac{8}{8}\), which is \(\frac{3}{8}\).)

“¿Cómo podríamos encontrar el valor de \(\frac{11}{8} -1\frac{1}{8}\)?” // “How could we find the value of \(\frac{11}{8} -1\frac{1}{8}\)?” (We could:

  • Think of \(1\frac{1}{8}\) as \(\frac{9}{8}\) and move left 9 spaces from \(\frac{11}{8}\) on the number line.
  • Jump to the left 8 spaces to represent subtraction by 1 and then another 1 space for the \(\frac{1}{8}\).
  • Write \(\frac{11}{8}\) as \(1\frac{3}{8}\) and think about how far away it is from \(1\frac{1}{8}\).
  • Subtract the whole number and the fractional part separately. \(1 - 1 = 0\) and \(\frac{3}{8} - \frac{1}{8}\) = \(\frac{2}{8}\).)

Cool-down: Diferencias de quintos (5 minutes)

Cool-Down

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