Describe the maximum effective of resistance with the help of series combination and parallel combination
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Answer:
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nR
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance =
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = n
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is (R/n)
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is (R/n)nR
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is (R/n)nR
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is (R/n)nR =n
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is (R/n)nR =n 2
For maximum effective resistance, the resistors must be connected in series combination. If then are n resistors each of resistance R, then the maximum effective resistance =nRFor minimum effective resistance, the resistors must be connected in parallel combination.So, the minimum effective resistance = nR Ratio of the maximum to minimum resistance is (R/n)nR =n 2 :1.