We started working with electricity recently and have used inquiry to discover Ohm's Law ( V = IR ). We are going to use Ohm's Law to help us make sense of a strange phenomenon. Electric circuits seem to have a mind of their own. In fact, the way in which you connect the same objects in a circuit can have a dramatic effect. We are going to use Phet's DC Circuit Construction Simulation to explore a number of circuits. You are going to explore 5 circuits in total. For each circuit you must record in your notebook:
Voltage of the battery
Current through the circuit
Resistance of the light bulb (make sure each bulb has the same resistance)
A diagram of what the circuit looks like
Voltage drop across each light bulb
Follow this first video to help you get your first circuit set up. You may choose any battery voltage (stay low enough to keep from blowing the circuit) and any resistance for the light bulbs (keep it low enough that the lights turn on).
In the first video the "voltage drop" across the light bulb was 12 v. Think of a completing a circuit like completing a log flume, at the end you are at the same height that you started. If the battery brought the voltage up by 12 v then we have to go back down 12 v before we get back. But how does this change when you have multiple light bulbs. Build the circuit in the second video to find out.
We have seen a series circuit before. It makes sense to think that adding multiple light bulbs to the same battery will make them dimmer because there is less energy to go around. But what if I told you that adding more light bulbs would actually make each bulb brighter? Seems crazy doesn't it? Try out the circuit in the third video.
There are an infinite number of ways to create circuits. Try building the last two circuits in the fourth video. Each combine a portion of a series circuit and portion of a parallel circuit. Don't forget to measure the voltage drop across each bulb on each circuit!
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