It is possible to visualize some of the concepts in the photoelectric effect by using colliding balls to represent scattering particles and obstacles to represent energy thresholds. In order to illustrate the concept in a clearer way, a life-size model of a photon ejecting an electron has been constructed. The model consists of the following:
- An inclined track to roll a metal 1"-diameter metal ball down
- PVC tubes cut to approximately 7"-lengths with thin rubber bottoms
- One metal 1"-diameter ball
- Two collisions ball: plastic, aluminum, brass, or wood
Additional equipment needed:
- 3 hot wheel's track sections
- masking tape
- meter sticks
- white target paper with carbon paper to mark impact positions
- 2 metal stands
- 2 test-tube clamps
- 2 c-clamps
- plumb line
- triple beam balance
- protractor
Procedure
- The collisions balls will be inserted individually into the tube so that they rest against the tube's rubber bottom
- The tube is then mounted at the end of the track, with approximately one centimeter of track extending beyond the end of the tube.
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The 1"-diameter metal is placed at various heights along the track and is released to roll down the track and collide with the bottom of the PVC tube
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The collision ball resting on the inside of the rubber bottom feels the collision of the metal ball and bounces upwards.
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If the collision ball bounces free of the tube, record its impact position on the floor.
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