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Lesson 3Reasoning about Contexts with Tape Diagrams (Part 2)

Let’s see how equations can describe tape diagrams.

Learning Targets:

  • I can match equations and tape diagrams that represent the same situation.
  • If I have an equation, I can draw a tape diagram that shows the same relationship.

3.1 Find Equivalent Expressions

Select all the expressions that are equivalent to 7(2-3n) . Explain how you know each expression you select is equivalent. 

  1. 9-10n
  2. 14-3n
  3. 14-21n
  4. (2-3n) \boldcdot 7
  5. 7 \boldcdot 2 \boldcdot (\text- 3n)

3.2 Matching Equations to Tape Diagrams

5 tape diagrams
  1. Match each equation to one of the tape diagrams. Be prepared to explain how the equation matches the diagram.
  2. Sort the equations into categories of your choosing. Explain the criteria for each category.
    • 2x+5=19
    • 2+5x=19
    • 2(x+5)=19
    • 5(x+2)=19
    • 19=5+2x
    • (x+5) \boldcdot 2=19
    • 19=(x+2) \boldcdot 5
    • 19 \div 2 = x+5
    • 19-2=5x

3.3 Drawing Tape Diagrams to Represent Equations

  1. Draw a tape diagram to match each equation.

  • 114 = 3x + 18
open applet in presentation mode
  • 114 = 3(y + 18)
open applet in presentation mode

  1. Use any method to find values for x and y that make the equations true. 

Are you ready for more?

To make a Koch snowflake:

  • Start with an equilateral triangle that has side lengths of 1. This is step 1.
  • Replace the middle third of each line segment with a small equilateral triangle with the middle third of the segment forming the base. This is step 2.
  • Do the same to each of the line segments. This is step 3.
  • Keep repeating this process.
Koch snowflake
  1. What is the perimeter after step 2? Step 3?
  2. What happens to the perimeter, or the length of line traced along the outside of the figure, as the process continues?

Lesson 3 Summary

We have seen how tape diagrams represent relationships between quantities. Because of the meaning and properties of addition and multiplication, more than one equation can often be used to represent a single tape diagram.

Let’s take a look at two tape diagrams.

A tape diagram

We can describe this diagram with several different equations. Here are some of them:

  • 26 + 4x=46 , because the parts add up to the whole.
  • 4x+26=46 , because addition is commutative.
  • 46=4x+26 , because if two quantities are equal, it doesn’t matter how we arrange them around the equal sign.
  • 4x=46-26 , because one part (the part made up of 4 x ’s) is the difference between the whole and the other part.
A tape diagram

For this diagram:

  • 4(x+9)=76 , because multiplication means having multiple groups of the same size.
  • (x+9)\boldcdot 4=76 , because multiplication is commutative.
  • 76\div4=x+9 , because division tells us the size of each equal part.

Lesson 3 Practice Problems

  1. Solve each equation mentally.

    1. 2x = 10
    2. \text-3x = 21
    3. \frac13 x = 6
    4. \text-\frac12x = \text-7

  2. Complete the magic squares so that the sum of each row, each column, and each diagonal in a grid are all equal.​

    Three square grids, each with three columns and three rows. Square grid 1 is populated as follows: Row 1: 0, 7, 2. Row 2: blank, 3, blank. Row 3: blank, blank, blank. Square grid 2 is populated as follows: Row 1: 1, blank, blank. Row 2: blank, 3, negative 2. Row 3: blank, blank, five. Square grid 3 is populated as follows: Row 1: Blank, blank, blank. Row 2: 4, 2, 0. Row 3: negative 1, blank, blank.

  3. Draw a tape diagram to match each equation.

    1. 5(x+1)=20

    2. 5x+1=20

  4. Select all the equations that match the tape diagram.

    A tape diagram
    1. 35=8+x+x+x+x+x+x
    2. 35=8+6x
    3. 6+8x=35
    4. 6x+8=35
    5. 6x+8x=35x
    6. 35-8=6x

  5. Each car is traveling at a constant speed. Find the number of miles each car travels in 1 hour at the given rate.

    1. 135 miles in 3 hours

    2. 22 miles in \frac12 hour

    3. 7.5 miles in \frac14 hour

    4. \frac{100}{3} miles in \frac23 hour

    5. 97\frac12 miles in \frac32 hour