Students will learn about the RC time constant and how to solve various problems involving resistor-capacitor circuits.
In the circuit diagram shown above, the resistor has a value of and the capacitor has a capacitance of . After the switched is closed, (a) how long will it be until the charge on the capacitor is only 10% of what it was when the switch was originally closed? If the capacitor was originally charged by a 12 V battery, how much charge will be left on it at this time?
(a): To solve the first part of the problem, we'll use the equation that gives charge as a function of time.
(b): Solving the second part of this problem will be a two step process. We will use the capacitance and the voltage drop to determine how much charge was originally on the capacitor ( ).
Now we can plug in the time we found in part A to the equation for charge as a function of time.
Watch this Explanation
Time for Practice
- Design a circuit that would allow you to determine the capacitance of an unknown capacitor.
The power supply (i.e. the voltage source) in the circuit below provides
. The resistor is
and the capacitor has a value of
- What is the voltage across the capacitor immediately after the power supply is turned on?
- What is the voltage across the capacitor after the circuit has been hooked up for a long time?
Marciel, a bicycling physicist, wishes to harvest some of the energy he puts into turning the pedals of his bike and store this energy in a capacitor. Then, when he stops at a stop light, the charge from this capacitor can flow out and run his bicycle headlight. He is able to generate
of electric potential, on average, by pedaling (and using magnetic induction).
- If Mars wants to provide A of current for 60 seconds at a stop light, how big a capacitor should he buy (i.e. how many farads)?
- How big a resistor should he pass the current through so the RC time is three minutes?
A simple circuit consisting of a
resistor. A switch is flipped connecting the circuit to a 12 V battery.
- How long until the capacitor has 2/3 of the total charge across it?
- How long until the capacitor has 99% of the total charge across it?
- What is the total charge possible on the capacitor?
- Will it ever reach the full charge in part c.?
- Derive the formula for V(t) across the capacitor.
- Draw the graph of V vs. t for the capacitor.
- Draw the graph of V vs. t for the resistor.
- If you have a capacitor and want a time constant of 5 seconds, what resistor value is needed?
Answers to Selected Problems
- a. 0 V b. 10 V
- a. 0.43 seconds b. 1.8 seconds c. d. No, it will asymptotically approach it. e. The graph is same shape as the Q(t) graph. It will rise rapidly and then tail off asymptotically towards 12 V. f. The voltage across the resistor is 12 V minus the voltage across the capacitor. Thus, it exponentially decreases approaching the asymptote of 0 V.