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If two bulbs are connected, first in series and then in parallel, which one will glow brighter, and what are the. By taking these two parameters into consideration we can find out the brightness of the bulbs when connected in the series or parallel. If one loop is disconnected, the other remains powered, which is an advantage to the parallel circuit.
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How would you reason that a 60 w bulb would be brighter in series with a 100 w bulb? The power $p=i^2r$ where $i$ is the current and for bulbs connected in series because the current is the same through both bulbs the bulb with the larger resistance (60w. In a series circuit with a 60 w and a 100 w lightbulb, the 60 w bulb is determined to be brighter due to its higher resistance, which results in it consuming more power when the.
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The most frequently asked and confusing question we receive is:
The bulbs in the parallel circuit will be brighter than those in the series circuit. When a 60 w, 200 v bulb is connected in series with a 100 w, 200 v bulb across a 200 v a.c. In this case bulb with low resistance will consume more power and glow brighter than the bulb with high resistance, so 100w bulb will glow brighter than 60w bulb. In a series circuit, the same.
“if a 60w and 100w bulb are connected in series, which one will glow brighter?” most people assume the 100w bulb will glow brighter—after all, it’s rated for more power,. Power supply, the 100 w bulb will glow brighter. A series circuit => current is the same for both bulbs. To understand, we will take two different cases of.
