(A) The $rms$ value of the alternating current is given by $I_{rms} = \frac{I_m}{\sqrt{2}}$.Given $I_m = 5 \ A$,we have $I_{rms} = \frac{5}{1.414} \ap

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(A) The $rms$ value of the alternating current is given by $I_{rms} = \frac{I_m}{\sqrt{2}}$.Given $I_m = 5 \ A$,we have $I_{rms} = \frac{5}{1.414} \approx 3.536 \ A$.The time taken to reach the peak value from zero is one-fourth of the time period $T$.Since $T = \frac{1}{f} = \frac{1}{60} \ s$,the time $t = \frac{T}{4} = \frac{1}{4 \times 60} \ s$.$t = \frac{1}{240} \ s \approx 0.004167 \ s = 4.167 \ ms$.

Class 12 Physics Alternating Current Alternating Current, Voltage (rms and Average)

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The peak value of an alternating current is $5 \ A$ and its frequency is $60 \ Hz$. Find its $rms$ value and the time taken to reach the peak value of current starting from zero.

GUJCET 2011 All GUJCET

A
$3.536 \ A, 4.167 \ ms$
B
$3.536 \ A, 15 \ ms$
C
$6.07 \ A, 10 \ ms$
D
$2.536 \ A, 4.167 \ ms$

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The peak value of an alternating current is $5 \ A$ and its frequency is $60 \ Hz$. Find its $rms$ value and the time taken to reach the peak value of current starting from zero.

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