SIMULATIONS TEACHlNG RESEARCH iNiTiATiVES \"NA" Q E a mmmm w w p, -, y Circuit Construction Kit: AC - Virtual Lab a Ii 0 2. Click to run the program (There is a download option too, you can download it in your computer and open there too.) Opening this software, you will see a blank canvas i Circuit Construction Kn AC - Vinuai Lab 3. On the left hand side you will see a list of elements you can add to your circuit. Click the schematic button on the right hand side of the screen. To create a circuit simply click and drag a circuit element onto your canvas. Circuit elements like batteries, capacitors and resistors when dragged onto the canvas have a starting value. To change this value right click on the element. Under the tools section on the right hand side is a stopwatch and a voltmeter. Click on both of these. The voltmeter has probes which can be dragged to different locations in the circuit to measure the voltage across circuit elements. In this lab we will use it to measure the voltage across the capacitor. The switches in the circuit simulator have a loose wire which can be dragged to close the circuit. 4. Create in the circuit simulator the RC circuit shown. It does not need to looks exactly like it, just match the connections as shown in the circuit in the gure below. Thaswilch is open. 13/ U w] J gum-n wusiuicnun nu AC , Vlllnul Lab 5. Choose the following values for the resistor, the capacitor and the battery: R : 509, C : 0.2F, V: 5V. Charging a Capacitor: Preliminary Questions: Suppose you have an RC circuit with R = 509, C = 0.2F, hooked up to a battery with V = 5V. We are going to charge the capacitor. 1- Using the equatiWSmnt r? (S) 10' What is the percent error between the calculated values and the exact value of C? Plot in a semi-log format. If you solve V(.(t)=V(l*e" ') for e\"\"and take the natural log of each side, then you can plot y:ln(l*VC/V) vs and x:t. Draw a single line of best t through your data. 11' Write your result as y =m x, what is the value of m? (1/3) 12. Using your plot and the result from question 4, what value of 1' do you nd? (S) 13. Again assuming we do not know the capacitance solve for C using your tted value of T and the known value of R. (F) 14. What is the percent error between the calculated value and the exact value of C? Discharging a Capacitor Preliminary Questions: Suppose again you have an RC circuit with R = 509, C = 0.2F, hooked up to a battery with V = 5V. This time we will discharge the capacitor. 15.13 the time constant 1 different when we discharge a capacitor? 16' When t = 1 what is the value of the voltage? (V) 17. What percentage of the battery voltage is the voltage across the capacitor at this time? 18. When t : Zr what is the value of the voltage? (V) 19, What percentage of the battery voltage is the voltage across the capacitor at this time?20. By what percentage of the battery voltage did the voltage across the capacitor change from t = r to t = 21'? 21.15 the following statement true: During discharging the capacitor loses the largest fraction of its initial voltage during the time t = T to t = 2r. Repeat the set of measurements taken above but now you discharge the capacitor rather then charge it. The capacitor needs to be fully charged before you start If you have not changed anything your capacitor should be charged from the previous step at 5V. If not you can open both switches and right click on the capacitor and select the charge option. College Physics -II (PHY205L) Baptist Health Science University Lab 6: RC Circuits Simulations Introduction: In the diagram shown we display an RC circuit. When we close the switch S (32-33) leaving the switch S, (33-34 )open, the capacitor is charged through the resistor by the constant voltage source. 32 33 19 18 R Red 20 Black 35 The voltages across the capacitor and resistor change exponentially with time. The voltage across the capacitor and the resistor are given as, V (t) = V( 1-e" ) were V is applied voltage and T=RC is the time constant. Once the capacitor is charged we can open the switch, S, and then close the switch S, . The capacitor will now discharge through the resistor, the voltages across the capacitor and resistor in this case are given by, V C(t)=Ve-t/ t where I is the initial voltage across the capacitor. rate at which the capacitor charges or discharges is characterized by the time constant t = RC. When charging, RC is the time that it takes for the capacitor voltage to increase from zero voltage to 0.632 times the charging voltage, since at t = t = RC V (t)=V(1-e') = V(1 -0.368) = 0.632V, or 63% of V Similarly, when discharging, RC is the time for the voltage to drop to 0.368 times its initial value, since at t = RC V = Ve'= 0.368V, or 36.8% of V Setup 1. Open the link (https://phet.colorado.edu/en/simulation/legacy/circuit-construction- kit-ac-virtual-lab) and run the java applet (you might have to download first it depending on your browser and OS). PhET ARCH INITIATIVES DONATE QLab6_RCCircuit DOCX 728 KB When you are ready, leaving switch 1 open, close switch 2 and begin timing the discharge of the capacitor as it discharges from 5V to 0V. Make a copy of the the table below to collect your data (no need to turn it in). The voltage increases faster at the beginning. Plot Vc as a function of time. 22. Looking at the plot at about what time did the voltage reach 36.8% of its total voltage? (S) 23. Assume you do not know the value of the resistor R, calculate R from the knowledge of C and the time constant found in question 1. (2) 24. What is the percent error between the calculated values and the exact value of R? Plot in a semi-log format. If you solve Vr(t)=V e \"for e a\"nd take the natural log of each side, then you can plot y=ln(VC/V) vs and x=t. Draw a single line ofbest t through your data. 25. Write your result as y :m x, what is the value of m ? (Us) 26. Using your plot and the result from question 11, what value of 1? do you find? (s) 27. Again assuming we do not know resistance solve for R using your tted value of T and the known value of C. (Q) 28. What is the percent error between the calculated value and the exact value of R? Summary and conclusions (describe what did you learn from animation and basic principles of this lab) Open Office US: -\"n.o_ ---- -"r..-t_yu 1. Using the equations above what is the time constant I? (s) 2. When t: 1- what is the value of the voltage? (V) 3. What percentage of the battery voltage is the voltage across the capacitor at this time? 4. When t = 21: what is the value of the voltage? (V) 5. What percentage of the battery voltage is the voltage across the capacitor at this time? 6. By what percentage of the battery voltage did the voltage across the capacitor change from t : I to t : 2r? 7.1s the following statement true: During charging, the capacitor gains the largest fraction of its final voltage during the time t = t to t = 21. Simulation To begin make sure your capacitor is discharged. That is the potential difference or voltage across the capacitor is zero. You can use the voltmeter to check that it is zero. If it is not zero we can discharge the capacitor by closing switch 2 and opening switch 1. Once the voltage is zero leave switch 1 open and open switch 2. Since this is a simulation, it also gives you the option to right click on the capacitor and choose discharge or charge capacitor. If you choose to do this for your setup make sure both switches are open so the capacitor will remain in the charged/discharged state until you are ready. You are going to time the charging of the capacitor, i.e. the time and it takes for the capacitor to reach a specific value VC. This can be done with your own stopwatch or the stopwatch in the simulation (it is much easier to use your smartphone as the stop watch). When your ready, start you first measurement Vc = 0.5V and repeat (or it might be more convenient to use the lap function on your stopwatch). Make a copy of the the table below to collect your data (no need to turn it in). The voltage increases faster at the beginning. mmmmmmmmmmm Time Plot Vc as a function of time. 8. Looking at the plot, at about what time did the voltage reach 63% of its total voltage? (s) 9. Assume you do not know the value of the capacitor C, calculate C from the knowledge of R and time constant found in question 1. (F)