1.Two capacitors of 5.00 mF and 10.00 mF are connected in series. The combinatio

Question

1.Two capacitors of 5.00 mF and 10.00 mF are connected in series. The combination is then connected in parallel with a 10.0 V battery and a 10 mF capacitor. (a) what is the equivalent capacitance? (b) what is the charge on each capacitor? (c) what is the voltage drop on each capacitor?

2. A 1.0 mF capacitor with an initial stored energy of 0.50 J is discharged through a 1.0 MW resistor. (a) what is the initial charge on the capacitor? (b) what is the current through the resistor when the discharge starts? (c) determine Vc , the potential difference across the capacitor, VR, the potential difference across the resistor, as function of time. (d) express the production rate of thermal energy in the resistor as a function of time.

Explanation / Answer

1. C1 = 5.00 mF, C2 = 10.00 mF, C3 = 10.00 mF and v = 10.0 V

The C1 and C2 are connected to series

Cs = C1*C2/C1+C2

= 5*10/5+10

= 3.34 mF

And the C3 is connected to the parallel

Ceq = 3.34+10.0

= 13.34 mF

(a) the equivalent capacitance is

Ceq = 13.34 mF

(b) The charge on C1 is

q = C1*v

= 5.00*10^-3 * 10.0

= 5*10^-2 C

The charge on C2 is

q = C2*v

= 10.0*10^-3 * 10.0

= 0.10 C

The charge on C3 is

q = C3*v

= 10.0*10^-3 * 10.0

= 0.10 C

(c) the voltage drop on each capacitor is

v = q/Ceq

v1 = 0.05/13.34*10^-3 = 3.74 v

v2 = 0.10/13.34*10^-3 = 7.49 v

v3 = 0.10/13.34*10^-3 = 7.49 v

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