## Wrapping paper problem.docx - Section 1: Do NOW (Days 1 and 2)

# Creating a Robot (2 Days)

Lesson 15 of 17

## Objective: SWBAT use thier knowledge of surface area to create a tin foil robot,

*85 minutes*

#### Do NOW (Days 1 and 2)

*15 min*

The students will be working on a problem involving surface area and a rectangular prism. The problem focuses around a real life situation where the student needs to find the amount of wrapping paper needed to wrap a present. Students should be able to make their own net, find the surface area, and then determine how much paper is needed to wrap the present.

This problem sets them up for today’s project where they will be creating a robot made out of prisms and pyramids. They will be using nets to find the surface area needed to cover the robot in aluminum foil.

Encourage students to create the net by using a ruler or grid paper. They will then need to determine how much wrapping paper will be needed.

As students finish this problem, have them do a** HUPUSU** to compare answers and strategies.

Tools: Wrapping paper problem, grid paper and rulers.

Do NOW (day 2)

Time: 15 minutes

The students will be using surface area to find out how much shingling will be needed to cover the roof of a house that is in the shape of a square pyramid. In order to start this problem, students should know to create the net of the square pyramid (**SMP1**: finding an entry point). Then they can assign the appropriate lengths to the faces of the pyramid (**SMP2**: what do the numbers mean). Finally, they will use these numbers to find the surface area of the roof. **(SMP5**: using tools strategically and **SMP4:** modeling the math).

Tools: Day 2 problem, grid paper, rulers.

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#### Robot Project

*60 min*

Day 1: students should be able to create the nets for each of the body parts of their robot. They will need to make 1 head, 1 body, 2 arms, 2 legs, 1 hat. The worksheet tells them what the shape should be, but not how big or small the measurements should be. Students should use a heavier weight paper to draw their nets on, however, they can use grid paper if that helps them visualize the net better. The grid paper can be used as a tracer.

Day 2: students will continue where they left off from the prior day. They should be calculating surface area as they go along. They will need to come up with the amount of foil needed to cover their entire robot. Students can use tape to secure the aluminum foil in place.

Tools: Heavier paper, tape, rulers, grid paper, and aluminum foil (1 per class), robot worksheet

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#### Closure (Days 1 and 2)

*10 min*

On day one, we will be closing this lesson by asking questions about what went right and what went wrong. Was there anything that was too difficult to do? Was anything too easy? The students will also be coming up with a goal to finish their project on the first day. We will do this as a whole class discussion.

On the final day, the students will be writing about how well they calculated their surface area. Did they have too much or too little tin foil and why. This will give the students time to self-assess to determine whether their calculations were precise.

#### Resources

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*Responding to BARB VENTURA*We used tape to enclose the nets and then hot glue to put the robot together. We hot glued after we foiled. | 3 months ago | Reply

Hi

I am trying to make the robot at home to show the students what it looks like before the foil is put on the shapes. What did you use to adjoin the shapes to each other? I have pipe cleaners, but it has been challenging. What did your class use? I thought of brays, (I think I spelled it right), they look like large envelope closures, but Michael's doesn't carry them anymore.

Thanks for your help.

Barb

| 3 months ago | Reply

I am going to try out this project! Sounds great! I will let you know it goes! Love the idea!

| 2 years ago | Reply

I would like to see a picture of the final product. How big did you allow them to make the robots?

| 3 years ago | Reply*expand comments*

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- LESSON 1: Finding the Area of a Rectangle
- LESSON 2: Finding the Area of a Parallelogram
- LESSON 3: Finding the Area of a Triangle
- LESSON 4: Finding the Area of a Trapezoid
- LESSON 5: Finding the Area Review and Assessment
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- LESSON 11: Prism or Pyramid?
- LESSON 12: Nets and Surface Area
- LESSON 13: Exploring Volume
- LESSON 14: Fractions and Volume
- LESSON 15: Creating a Robot (2 Days)
- LESSON 16: Review of CCSS 6.G.1,2,3,4
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