Two capacitors 3muF and 6muF are connect...

Two capacitors `3muF` and `6muF` are connected in series across a potential difference of `120V`. Then the potential difference across `3muF` capacitor is:

`40V`

`60V`

`80V`

`100V`

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Two condensers of capacities 8muF, and 4muF are connected in parallel across a potential difference of 120 V. The charge and potential difference across 4muF capacitior is respectively

1 mC, 10 V

0.2 mC, 20 V

0.4 mC, 60 V

0.48 mC, 120 V

Two capacitors of capacitances 10muF and 20muF are connected in series across a potential difference of 100V. The potential difference across each capacitor is respectively

66.67 V, 33.33 V

60 V, 40 V

50 V, 50 V

90 V, 10 V

given that potential differene across 1muF capacitor is 10V . Then,

potential difference across `4muF` capacitor is `40V`

potential difference acros `4muF` capacitor is `2.5V`

potential diference across `3muF`e capacitor is `5 V`

value of `E` is `50 V`

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Two capacitors of capacities 3muF and 6muF are connected in series and connected to 120V. The potential difference acros 3muF is V_(0) and the charge here is q_(0) . We have (A) q_(0) = 40muC (B) V_(0) = 60V (C ) V_(0) = 80V (D) q_(0) = 240 muC

Two capacitors of 3muF and 6muF are connected in series and a potential difference of 900 V is applied across the combination. They are then disconnected and reconnected in parallel. The potential difference across the combination is

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Two capacitors `3muF` and `6muF` are connected in series across a potential difference of `120V`. Then the potential difference across `3muF` capacitor is:

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Two condensers of capacities 8muF, and 4muF are connected in parallel across a potential difference of 120 V. The charge and potential difference across 4muF capacitior is respectively

Two capacitors of capacitances 10muF and 20muF are connected in series across a potential difference of 100V. The potential difference across each capacitor is respectively

given that potential differene across 1muF capacitor is 10V . Then,

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PHYSICS GALAXY - ASHISH ARORA-CAPACITANCE-NUMERICAL MCQS