07_U8+ws+3+AP+symbols.doc
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Date Pd Energy Model Worksheet 3:
Qualitative Energy Storage & Conservation with Bar Graphs
For each situation shown below:
1.
List objects in the system within the circle. **
Always include the earth’s gravitational field in your system.
2.
On the physical diagram, indicate your choice of zero height for measuring gravitational energy.
3.
Sketch the energy bar graph for position A, indicate any energy flow into or out of the system from position A to
position B on the System/Flow diagram, and sketch the energy bar graph for position B.
4.
Write a qualitative energy equation that indicates the initial, transferred, and final energy of your system.
1a.
In the situation shown below, a spring launches a roller coaster cart from rest on a
frictionless track into a vertical loop. Assume the system consists of the cart, the earth, the
track, and the spring,
1b.
Repeat problem 1a for a frictionless system that includes the cart, the earth, and the track,
but not the spring.
1c.
Use the same system as problem 1a, but assume that there is friction between the cart and
the track.
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1d.
This situation is the same as problem 1a except that the final position of the cart is lower on
the track. Make sure your bars are scaled consistently between problem 1a and 1d. Assume
the system consists of the cart, the earth, the track, and the spring.
2a.
A moving car rolls up a hill until it stops. Do this problem for a system that consists of the
car, the road, and the earth. Assume that the engine is turned off, the car is in neutral, and
there is no friction.
2b.
Repeat problem 2a for the same system with friction.
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3a.
A person pushes a car, with the parking brake on, up a hill. Assume a system that includes
the car, the road, and the earth, but does not include the person.
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U8 Energy - ws 3 v3.1
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3b.
Repeat problem 3a for a system that includes the person.
4a.
A load of bricks rests on a tightly coiled spring and is then launched into the air. Assume a
system that includes the spring, the bricks and the earth. Do this problem without friction.
4b.
Repeat problem 4a with friction.
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4c.
Repeat problem 4a for a system that does not include the spring.
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5a.
A crate is propelled up a hill by a tightly coiled spring. Analyze this situation for a
frictionless system that includes the spring, the hill, the crate, and the earth.
5b.
Repeat problem 5a for a system that does not include the spring and does have friction.
©Modeling Instruction - AMTA 2013
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U8 Energy - ws 3 v3.1
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6a.
A bungee jumper falls off the platform and reaches the limit of stretch of the cord. Analyze
this situation for a frictionless system that consists of the jumper, the earth, and the cord.
6b.
Repeat problem 6a if the cord is not part of the system.
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