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Akron Global Polymer Academy Lesson Plans

The Great Rube Goldberg Polymer Machine

Grades: 7-12 Physics or Physical Science
Author: Penny Porter
Source: This material is based upon work supported by the National Science Foundation under Grant No. EEC-1161732. "Rube Goldberg" is the description of a type of machine used by many educational institutions for contests. There are no set rules.only that the machine must be "over-engineered!"


Abstract

Using the Rube Goldberg over-engineered method of design, students will find and utilize only polymers to construct a machine that will move a Polymer object (ball, car, etc) from point A to point B. They must incorporate a Shape-Memory Polymer and at least one example from each category of polymers found in the recycle codes for plastic #1 - #7. The object must change directions at least three times during the trip. This entire lesson allows teachers to meet science content standards and introduce polymers and other science concepts using Best Teaching Practices, Hands-on/Minds-on Learning and Authentic Problem-based Learning.


Objectives

What should students know as a result of this lesson?

What should the students be able to do as a result of this lesson?


Materials


Procedures

Engagement

Before the production of the shape memory polymer, a pretest will be given to determine how much the student knows about polymers, plastics, what can be recycled...etc.

[To get students excited about polymers we will first watch: What are Polymers? and then make a shape memory polymer (lab found in worksheet section as worksheet 1)]

Assessment: The assessment is informal at this stage. All students should be involved in this discussion. Student's questions are welcomed.

Exploration

Assessment: The assessment will be based upon two rubrics which are located within the worksheet section. Teacher should see that students are all engaged building the machine.

Explanation

As a class review and discuss the machines and the results of the teams by viewing the video of each run

Assessment: Students should be actively involved in the evaluation of machines. Each student must hand in rubric 1 listing their score of each machine, worksheet 4, and rubric 2 for their team.

Elaboration

As a final project, each student will write an argumentative paper to support their claim either for (pro) or against (con) the production of polymers. Their claim must be supported with facts found from at least four different sources. Student must avoid plagiarism and follow the standard format for citation of references. Directions will be given in worksheet 5.

Assessment: Paper will be graded as the major paper for that grading period. (Rubric 3)


Prerequisites

None


Best Teaching Practices


Alignment with Standards

NGSS Standards:

Common Core Standards:

Ohio Standards:


Content Knowledge

It is assumed that the average high school or middle school student knows nothing about polymers. Students will be introduced to polymers using videos, samples, internet.

Student must search the internet, ask questions of instructor and research textbooks to build a knowledge base. This knowledge may be added into the Learning Cycle at any level.


Safety

General classroom safety rules should be followed.

When building the machine, care should be taken when using scissors or knives to cut plastic.

A general warning regarding the misuse of rubber bands should be given prior to lab.


Applications

Natural and synthetic polymer materials are significant to our everyday lives. Our world is moving in the direction of replacing wood, steel, and other resources with polymers. We must become more informed regarding their wide range of properties, what materials they come from, and investigate how to dispose of them properly without harm to environment, wildlife, and humans.


Assessment

Assess each section of work using the rubrics and worksheets given; determine the success of each team's Rube Goldberg machine by checking that they followed the rules; Grading the paper


Other Considerations

Grouping Suggestions: YOYO = You're on Your Own!

Pacing/Suggested Time:

A. = Making Shape Memory Polymer (Activities in Lesson)

B. = Designing and Producing the Rube Goldberg Machine (Activities in Lesson)

C. = Argumentative Paper involving Polymers (Activities in Lesson)

Portion A will take one day to mix and one day to cure (day is free from polymer work unless teacher wishes to use this day to introduce project) on the third day it will be ready.

Portion B will take a range of two to five days to complete. This will be determined by several factors:

One day must be used to actually run each machine and video tape each run.

Portion C can be assigned as a large paper due any time within several weeks.


Printable PDF Worksheets

Making a Polymer Worksheet 1

Recycle codes of Polymers Worksheet 2

Rube Goldberg Polymer Project Worksheet 3

Rube Goldberg Machine Conclusion Worksheet 4

Rube Goldberg Machine Evaluation Rubric 1

Team Member Evaluation Rubric 2

Polymer Argumentative Paper Worksheet 5

Evaluation of the Paper Rubric 3