A single fixed pulley only changes the direction of a force - not the amplitude (the amount) of force.
In our experiment we will see how a pulley can change the direction of a force so that two weights pull against each other.
Q2. CLICK HERE TO SEE / HIDE STUDENT FLIP RESOURCES:
Video: Simple machines - Pulleys
Video: Simple machines - The Wheel & Axle
Click on weights and blocks to set up experiments - you can also left-click and drag items on left-hand side of simulator.
Click and drag items to create experiments and to find out how it works - menu bar is at bottom of the simulator screen. More about levers.
Q1. CLICK HERE TO SEE / HIDE EXTRA STUDENT FLIP RESOURCES
Reminder:
A force is a push or a pull.
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Identify what forces are affecting the weights.
Identify the locations where forces are acting & what direction they are acting in.
AN EXAMPLE EXPERIMENT:
This is an experiment to help you understand the difference between a simple lever (like a 'see-saw', 'teeter-totter' or balance bar) and a simple pulley (like a hook that has no friction).
An example observation might be:
An example hypothesis might be:
When two weights are placed the same distance from a fulcrum the weights/balance will not move.
When one weight is moved closer to the the fulcrum, one end of the balance will fall.
I expect the result will be the same when the position of the weights is changed, both for the pulley and for the balance.
An example experiment to test my hypothesis (using alternative strategies and the resources provided in the student wiki):
Set up the balance and pulley as shown in Fig 1.
Place the two EQUAL weights at EQUAL distance from the fulcrum (mark 6)
Shorten the length of one arm by moving one weight closer to the fulcrum (eg. mark 4)
Describe what happens to the weights. Does one weight go up, go down or stay the same?
Fig 1. Weights set at equal distances on the balance (see-saw) and on the pulley
NEXT, consider this:
Set up the balance and pulley as shown in Fig 2.
First, position the two EQUAL weights at EQUAL distance from the pulley
Now shorten the length of one arm (rope) by moving one weight closer to the pulley
Describe what happens to the weights. Does one weight go up, go down or stay the same?
Fig 2. Weights set at unequal distances on the balance (see-saw) and on the pulley
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