Posted by:
Brolin Evans
10/15/2009 11:00:13 AM
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| Title: |
CAN You Do It? |
| Grade Level: |
Middle School |
| Subject Area: |
Science
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| Lesson Time: |
240 minutes for classroom activities |
| Introduction: |
In this lesson, students will analyze a conventional can
opener. Students will be asked if they have ever had
trouble opening a can with such a tool. What simple
machines make up a can opener? Do you think you could
improve this design if you had the tools and resources to
do so? |
| Standards: |
Science Standard 12. Level III. Understands the nature of
scientific inquiry 1. Knows that there is no fixed
procedure called "the scientific method, " but that
investigations involve systematic observations, carefully
collected, relevant evidence, logical reasoning, and some
imagination in developing hypotheses and explanations 3.
Designs and conducts a scientific investigation (e. g. ,
formulates hypotheses, designs and executes investigations,
interprets data, synthesizes evidence into explanations) 9.
Knows possible outcomes of scientific investigations (e. g.
, some may result in new ideas and phenomena for study;
some may generate new methods or procedures for an
investigation; some may result in the development of new
technologies to improve the collection of data; some may
lead to new investigations) |
| Objectives: |
Students will be able to: - analyze how simple machines
(especially levers and wheels and axles) make work on an
object (i. e. , a can) easier by changing the direction,
distance, and amount of effort and force applied to an
object
- use the design process to solve problems and
engage the world around them
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| Resources: |
attached worksheet https://en. wikipedia.
org/wiki/Can_opener (print for students to review) |
| Materials: |
For each group of three to four students, you will need: -
handouts #1 and #2, and article
- traditional can
opener
- dowel rods of . 5” to 1” in
diameter cut to the following lengths (two of each): 3
inches, 6 inches, 9 inches, 12 inches
- strong tape
(duct, packing, etc. )
- scissors
- tin can with at
least one end intact (Note: Precautions should be taken so
that students do not cut themselves. )
- work or
gardening gloves (for protection from cuts)
- ruler
-
wooden craft sticks
- craft foam circles
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| Vocabulary: |
Before this lesson, students should be familiar with the
following terms: machine, work, energy, effort force,
fulcrum, lever, wheel and axle, wedge, and diameter. |
| Procedures: |
Day 1: 1. Pass out student handout. 2. Pass out
materials listed above. 3. Students will examine a regular
can opener and record observations on their handouts. 4.
Students will be asked to make the existing can opener more
efficient, using long and short wooden dowels for the
levers and handle of the wheel-and-axle (on the worksheet).
5. Students will pierce the tin can with the can opener
(altered and unaltered) to test the ease of use (work). 6.
Students will record data on their handouts. 7. Students
will discuss the effects of the changes of the handle
lengths. Did it make it harder/easier to use?
Why? Was the amount of work done
increased/decreased? How do you know? 8. Class will
discuss the effect of lever length on work. Day 2:
1. Students will begin the design process of creating their
own efficient manual can opener. 2. Each group will have a
separate set of constraints. 3. Each group will draw
from a hat and have to use the combination of simple
machines given to them to design a can opener. They
will only be allowed to use the simple machines that were
given to them, i. e. Group one chooses the following card:
Wedge, Screw, and Inclined plane. Then Group one
will have to design a can opener using only the
aforementioned simple machines. 4. Students will first
sketch their design on a paper and label the sections. 5.
Teacher will circulate among the groups, offering
suggestions and asking students questions to get them
thinking critically. (For example: What do you think would
happen if you put this there, instead of that? Will
making the effort arm shorter increase or decrease the
amount of work done? Etc. ) 6. Students will explain
how the apparatus will work. 7. Teacher will give students
wooden craft sticks, tape, glue, foam circles to create a
prototype of their apparatus. 8. Students must be able to
explain how their design is more efficient than the
traditional can opener. 9. Students will have the rest of
the period today and tomorrow to construct their design
protocols. Day 3 : 1. Students will continue to
build and create their prototypes. Day 4: 1.
Students will complete handout #2 explaining their designs
and the design process. 2. Students will then present their
prototypes to the class. Students must include how
their design makes work easier and describe the simple
machines used in its assembly. 3. Students will be
encouraged to ask questions about each other’ s
designs. 4. Students will reflect on their designs and
suggest any improvements that need to be made. 5. Teacher
will wrap up the task by discussing the design process and
how designers find a problem and work to solve that
problem. |
| Assessment: |
Mastery of the students would be determined by the answers
on student handouts #1 and #2. The process has
differentiation woven into it, since students of all
ability levels will be able to design an appropriate
prototype. Students with learning difficulties could
also be given fewer restraints. |
Enrichment
Extension Activities: |
Within the assignment, students will be asked to think
outside of the box and globally. How will your
design make life better for people around the world?
How have you contributed to society in your role as a
designer? |
| Teacher Reflection: |
Can |
Related
Files: |
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