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The plates of a 50muF capacitor charged ...

The plates of a `50muF` capacitor charged to `400muC` are connected through a resistance of `1.0kohm`. Find the charge remaining on the capacitor 1s after the connection is made.

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The time constant is
`CR=(50(mu)F)(1.0k(Omega))=50ms.`
`At t=1 s,t/CR=(1s)/(50ms)=20.`
`the charge remaining on the capacitor is
`q=Qe^(-t/CR)`
`(400(mu)C)e^(-20)=8.2xx10^(-7)(mu)C.`
We see that in typical charging or discharging corcuit, the time constant is of the order of a millisecond. Also four to five time constants are sufficient for 99% of hte charging or discharging. thus for practical purposes we can assume that charging or discharging is complete in a fraction of a second.
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HC VERMA-ELECTRIC CURRENT IN CONDUCTORS-Exercises
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  7. A wire of length 1 m and radius 0.1mm has a resistance of 100(Omega).F...

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  11. Shown a conductor of length l having a circular cross section. The rad...

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  12. A copper wire of radius 0.1mm and resistance 1k(Omega)is connected acr...

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  13. Calculate the electric field in a copper wire of cross-sectional area2...

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  14. A wire has a length of 2.0m and a resistance of 5.0(Omega).Find the el...

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  15. The resistances of an iron wire and a copper wire at 20^(@)Care 3.9(Om...

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  16. The current in a conductor and the potential difference across its end...

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  17. Shown an arrangement to measure the emf (epsilon)and internal resistan...

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  18. The potential difference between the terminals of a battery of emf 6.0...

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  19. The potential difference between the terminals of a 6.0V battery is 7....

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  20. The internal resistance of an accumulator battery of emf 6V is 10(Omeg...

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  21. Find the value of i(1)/I(2)in figure if where R=10Omega

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