6. In this simulation, the capacitor reaches half of its maximum value when it crosses the x axis of the oscilloscope plot. Using your cursor, mouse over the signal when the capacitor is at its minimum value. Do the same to find the time when it reaches half of its maximum value while it is charging, the time at its maximum value, and the time will it is at half its maximum value while discharging. Record these in the table below and calculate the half time of the circuit (1/2 Time) when the capacitor is charging and discharging. R 180 12 C 33 MF Time at Vmin Time at 1/2 Vmax (charging) Time at Vmax Time at 1/2 Vmax (discharging) 1/2 Time (charging) = time at 1/2 Vmax (charging) - time at V min 1/2 Time (discharging) = time at 1/2 Vmax (discharging) - time at VmaxName: Section: 7. The theoretical time constant of the circuit is given by the equation: T = RC Where R is the value of the resistor and C is the value of the capacitor. It can also be calculated experimentally from the half time of the circuit: time1/2 Texp 0.69 Compute the theoretical value of t, along with the experimental values of t from your charging and discharging half times. Average the value of your charging and discharging time constants and calculate a percent difference to the theoretical value of the time constant. Fill these in the table below. Show your work below. Tcharge Tdischarge Tavg Ttheoretical % DifferenceFile Edit Draw Scopes Options Circuits Reset 180 Run / STOP Simulation Speed Current Speed Power Brightness 15Hz 33UF Current Circuit: RC.circuitjs.txt DD X Native, Ready-to- Use UI Advanced Angular UI Native 4.964 V Components To H=5 ms/div V=5 Vidiv 266.765 ms Help You Build 4.964 V capacitor Better Apps capacitor, 33 ullF 1 = 1.88 mA Faster. Try It Vd - 4.662 V C = 33 HF Now. Progress P = 8.763 mW Kendo UI 4:964-V This is an electronic circuit simRC.circuitjs. txt DD X Native, Ready-to- Use UI Advanced Angular UI Native 2.5 V Components To 241.485 ms H=5 ms/div V=5 V/div Help You Build 4.964 V capacitor Better Apps capacitor, 33 UF 1 =1.88 mA Faster. Try It Vd = 4.662 V C = 33 UF Now. Progress P = 8.763 mW Kendo UI 4.964 V This is an electronic circuit simulator. When the applet starts up you will see an animated schematic of a simple LRC circuit. The indicates negative voltage. The moving yellow dots indicate current. To turn a switch on or off, just click on it. If you move the mouse over any component of the circuit, you will see a short description modify a component, move the mouse over it, click the right mouse button (or control-click if you have a Mac) and select "Edit". The "Circuits" menu contains a lot of sample circuits for you to try. Full Screen version. Directions. Standalone (offline) version for Mac, and for Windows.33 -4.962 V 233.165 ms H=5 ms/div V=5 V/div capac 4.964 V 1 =1.8 capacitor, 33 UF Vd = 4 C = 33 P = 8.7 4.964 V