Calculating Energy Dissipation in an RC Circuit

AI Thread Summary
To calculate energy dissipation in the RC circuit, first determine the total charge in the capacitor when the switch is in position a. When switched to position b for 1.25 ms, the charge transferred to the second capacitor can be found using dQ/dt to calculate the current. The average current is then used to find power dissipation through I^2R. Integrating I^2R over the time interval provides an approximation of energy dissipated, which is calculated to be 23 mJ. This method effectively relates capacitor charge and resistor power dissipation in the circuit.
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Homework Statement


The switch in the figure (Intro 1 figure) has been in position a for a very long time. It is suddenly flipped to position b for 1.25 ms, then back to a. How much energy is dissipated by the resistor?

the circuit for a is 50V battery, 125 ohm resistor and 20uF capacitor. The circuit for b is the 20uF capacitor and the 50 ohm resistor.

Homework Equations



Time constant=RC, Ucap=0.5CV^2, V=IR, Q=CV, i don't know I've tried others too

The Attempt at a Solution



I know the capacitor will be at 50V. I found time constant and current and charge and tried so see if i=i(max)e^(-t/RC) would work and tried to relate it back to energy but it didn't. The answer is 23 mJ.
 
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First of all find the total charge in the first capacitor when the switch in position a.
Find the total charge transferred to second capacitor in 1.25 ms when the switch is in b position. dQ/dt will give you the current in the resistance. Find the average current I and I^2R will give you the power dissipation.
 
Last edited:
To get answer integrate I^2R dt. Integrating the average current squared is an approximation...
 

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