Lightbulb Brightness Homework: Series & Parallel Circuits

AI Thread Summary
In a series circuit with a 25V battery, the brightness of two light bulbs with resistances of 10 ohms and 15 ohms is determined by the power consumed, which is calculated using P = I^2 R. Since the same current flows through both bulbs in series, the bulb with the higher resistance (15 ohms) glows more brightly. In a parallel circuit, the voltage across both bulbs remains the same, and the bulb with the lower resistance (10 ohms) will draw more current, resulting in it glowing more brightly. The discussion emphasizes that brightness is linked to power consumption, which varies based on the configuration of the circuit. Understanding these principles clarifies how bulb brightness changes between series and parallel arrangements.
JWSiow
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Homework Statement


Two light bulbs of resistance R1=10 ohms and R2 = 15ohms are connected in series with a 25V battery. Which bulb glows more brightly?

Now the bulbs are connected in parallel with the battery. Which bulb now glows more brightly?


Homework Equations


V=IR


The Attempt at a Solution


...This seems like an easy question, but I just don't understand it! I know if they were the same resistance the brightness of each bulb would be the same, but don't really know why. I thought the amount of current passing through each bulb determined brightness, but then I read that from the Junction rule, the current through each component is the same!
 
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Hey, the brightness depends on the power consumed by the bulb. When bulbs are in series,yes, as you said current flow is same. You calculate power consumed by each bulb now using relation
P= I^2 R
from which you can find which bulb is more brighter.
When they are in parallel, surely, bulb with higher current through it (or which has lower resistance) will be brighter, since voltage here is same on two bulbs.
 
In series combination the same current flows through both the resistances. Brightness depends on the heating effect. And it is given by either I^2*R, or V^2/R or V*I. So in series combination larger resistance is brighter.

In parallel combination...?
 
Ok, thanks heaps!
 
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