I try not to turn on the lights in our house as often as possible, relying instead on the natural light from outside (my mother is not very approving of this, but that doesn’t stop me... :P). However, when it’s rainy and the sky is gray, or when I’m up studying in the wee hours of the night, the lights become necessary. In my room, I have a light fixture above my bed that looks like this:
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| [It’s kind of ironic how nice the plants look behind my window, since it has basically been raining the entire day. Not the best weather to motivate me to do my homework. -.-] |
As they are, the lights seem to be in series. However, the circuit that they are a part of is actually in parallel. Which is good, because a parallel circuit is much more efficient than a series circuit. In a series circuit, when one bulb goes out, the others go out too, because the current can no longer flow through the entire circuit. But since my lights are wired in parallel, even if one bulb goes out, current still continues to flow to the other bulbs to keep them lit. Also, the total resistance of the circuit is much lower in a parallel circuit than it would be in a series circuit, allowing more current to flow through it. In a series circuit, Rtotal = R1 + R2 + R3, while in parallel, 1/Rtotal = 1/R1 + 1/R2 + 1/R3. Lastly, the bulbs will shine brighter in a parallel circuit than in series. In series, the voltage is split between the bulbs, whereas in parallel, (theoretically) all the voltage supplied by the source goes to each branch of the circuit. Since power can be defined as P = V2/R and the voltage supplied to each bulb in a parallel circuit is greater than that supplied in a series circuit, the bulbs in parallel will be brighter.
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