The RC Circuit (5pts)
You will construct a simple RC series circuit using a battery (actually an 8 V power supply), a capacitor (C = 19 mF), a resistor (R = 3 kW), and a deadman switch (Sw). The potential across the capacitor will be monitored using a high impedance digital voltmeter (V).
For an initially uncharged capacitor, the voltage across the capacitor is given by
Procedure:
Short the capacitor before starting to remove any charge. Set the power supply for approximately 8 V. Depress the deadman switch and using a stopwatch, record the potential (Vc) approximately every 10 seconds for the first 2 minutes and then every 30 seconds for an additional 3 minutes. One person should be in control of both the stopwatch and deadman switch to minimize error due to reaction time. (The process can be briefly stopped to record each value. If the potential drops during the recording process, simply tap the switch until the potential returns to the last recorded value.) When finished, short the switch and leave the capacitor to charge. After about 10 to 15 minutes the potential across the capacitor should level off to the Vm value. Record this value.
Plot Vc vs time and interpolate a smooth curve through the points. Choose four sets of values of the potential and time from the plot and calculate the value of t from each set. Find the average of these four values.
The Kirchoff Circuit Challenge (3-5 pts)
When you enter the lab, you will be given a diagram of three circuits consisting of resistors and a battery. The circuits will be assigned point values of 3, 4, or 5, consistent with their difficulty.