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Monday, December 15, 2014

Chapter 3 - Work and simple Machines

A. RE pp. 41-42: Before You Read, 1. Identify, 2. Calculate, 3. Infer

B. Work (Joules) = Force (Newtons) X Distance (meters)
1. Force = 5 Newtons, Distance = 8 meters, Work = ____ Joules?
2 Force = 10 N, Distance = 10 m, Work = ___ J?
3. Distance = 15 m, Force = 20 N, Work = ___ J?
4. Work = 30 J, Distance = 6 m, Force = ___ N?
5. Work = 55 J, Force = 5 N, Distance = ___ m?

C. RE: C3S2 – Before You Read,
 Calculate, 2. Describe, 4. Identify, 5. Evaluate

D. R.E.: p. 47 “Friction”, 4. Identify, 5. Evaluate

E. - Before You Read, Identify Simple Machines, 1. Evaluate, 2. Calculate, 3. Explain, 5. Analyze 
- p. 54: After You Read #1,2,3
- Add the Mini Glossary words and definitions to your Science Notebooks Glossary
 

 

Tuesday, December 9, 2014

LAB #4 – Simple Machines Help Us

LAB #4 – Simple Machines Help Us

Problem: How do the various simple machines help us?

Hypothesis:

Materials: various simple and compound machines

Procedure:

Results:
Name of the object

Purpose of the object
What kind of simple machine/s is it?
Draw a picture of the object
1. Plastic drink top




2. chemistry tongs




3. cooking thermometer




4. scissors (2)




5. light bulb and clamp (3)




6. plastic car (2)




7. spray bottle (2)




8. staples




9. clip on clipboard




10. flashlight




11. tape and dispenser (2)




12. rolling pin




13. nails (on wall)




14. screw (in wall)




15. stairs




16. stapler




17. triple beam balance (3)




18. crazy coaster track




19. cabinet drawer track




20. wheel on push cart




21. blinds




22. hammer (2)




23. test tube holder




24.




25.




26.




27.




28.




29.




30.










Analysis:
1) Explain: How do simple machines make our lives easier?
               
2) Identify and Infer: Pick three of the objects from the lab and explain how it would be like without them?  How would you accomplish the tasks they help us with without them?

3) Go to your data table and label the fulcrum for each of your levers.

4) Synthesis: Design your own compound machine; use at least 4 different simple machines.
                
5) Analysis: What is the relationship between the simple machines in this lab and ones found in your home?  

Conclusion


 What was your problem?
 Restate your hypothesis.  Was it right? wrong?  why or why not?
 What did you learn in this lab?
 What did you like about this lab?
 What were some challenges you had to deal with?
 What could you do next with this problem?  What other tests could you perform?
 Write down any other additional thoughts, observations, inferences, etc.


Tuesday, November 25, 2014

Monday, November 17, 2014

Lab #3 – Calculating Work

Lab #3 – Calculating Work

Work = Force x distance
Work = (Force)(Distance)
W = Fd

Problem
How can a ramp help us pull a heavy object up to a greater height?

Hypothesis
Skip 3 lines here

Materials
Ruler, chair, ramp (inclined plane), weights, spring scale, various metallic objects


Procedure

Results
A.Work done without ramp
Object
Force (Newtons)
Distance (cm)
Work (Joules)
20 g Weight
__N
__cm
___J
50 g Weight



100 g Weight



200 g Weight



500 g Weight



 Metal Object






B. Work done with ramp
Object
Force (Newtons)
Distance (cm)
Work (Joules)
20 g Weight
 N
cm 
50 g Weight



100 g Weight



200 g Weight



500 g Weight



Metal Object




 Make another Hypothesis: Use your hands to feel the sandpaper.  Which of these will cause more work to be done on the weights? 

C.Work done with sandpaper on ramp
Object
Force (Newtons)
Distance (cm)
Work (Joules)
20 g Weight



50 g Weight



100 g Weight



200 g Weight



500 g Weight



Metal Object



Length of ramp = ___cm



ANALYSIS
1)   Construct a line graph for results A, B, and C on the same coordinate plane.  Label the x-axis weights (grams) and label the y-axis work (Joules). 
2)   How did the weight (force pulling down) affect the amount of work done on the object?
3)   Compare/Contrast the trial with the least amount of work to that with the most amount of work.
4)   Part 1 (A,B): What is your Independent Variable?
5)   Part 1 (A,B): What is your Dependent Variable?
6)   Part 1 (A,B): What are your Constants?
7)   Part 2 (B,C): What is your Independent Variable?
8)   Part 2 (B,C): What is your Dependent Variable?
9)   Part 2 (B,C): What are you Constants?

10)               Make an inference: Which would increase the friction of the object you are pulling, adding oil to the ramp or glue?  Why would you expect this?


Conclusion

 What was your problem?
 Restate your hypothesis.  Was it right? wrong?  why or why not?
 What did you learn in this lab?
 What did you like about this lab?
 What were some challenges you had to deal with?
 What could you do next with this problem?  What other tests could you perform?
 Write down any other additional thoughts, observations, inferences, etc.