help with observations in panel 1 and ---> how did the current change when the circuit was initially closed in part two of this exercise? explain your answer by referencing panel one in the definitions of a capacitor and of current.

Discharge of a Capacitor Lab Assignment Note: The capacitor can be found In your Capacitor bag. It will be labeled with the capacitance In uF. on its cylindrical body. It is the largest item In the capacitor bag. The 100 Q reslator can be found In your realstor bag. It will be labeled with the following color code: Brown, Black, Black, Black, Gold (or Silver). Objectives 2. Construct a series circuit as shown in Figure 1. The objectives of this lab are to 1. observe a capacitor as it charges and discharges. A. Use one jumper cable to connect the two battery holders with batteries in place - . determine the time constant and charge accumulation of a capacitor. connect one black wire to the other's red wire. 3. Connect a second jumper cable between the black wire of the connected battery holders and one of the 100 0 resistor wires. Background C. Connect the third jumper cable between the second wire of the 100 Q resistor Review capacitors section in Chapter 19 and 21 in your textbook and PPT slides. and one of the wires of the capacitor. Figure 2. DMM leads connected to jumper cables. Inset picture shows close-up of DMM lead-jumper cable connections. D. Connect the fourth jumper cable between the other wire of the capacitor and the Materials free end of the battery series. 5. Attach the jumper cables from the DMM to the capacitor as shown in Figure 3. Student Supplied Digital stopwatch 1.5 7 AA battery Pen or pencil Battery halder Sheet of paper 47 micro Bated Capacitor Digital multimeter Jumper cable LED Pair of safety goggles 100 0 100 Ohms Resistor resistor "Either a physical stopwatch or computeriphone app may be used ps Jong as it records to 0.01 second. Capacitor" Procedure You will complete a lab report that includes data tables, photos, graphs (if any) following the instructions given in "How to write a formal lab report". The lab report should be a single Word document. You will submit the report by using SUBMIT link given in weekly lab modules in MyHCC (Canvas) lab course. Figure 1. Series RC circuit prior to connecting the DMM to the capacitor. Figure s. Full circuit with DMM included. Part 1: Voltage of a Discharging Capacitor 3. Set the DMM to the 20 DCV setting so it reads as a voltmeter 6. Turn on the DMM and record the voltage for time 1=0 in Data Table 1. Gather the jumper cables, palletjes and holders, the 100 0 resistor, the 47 UE. 7. Place a stopwatch beside the DMM where it can be seen easily. capacitor, and the digital multimeter (DMM) and put on your safety goggles. 4. Connect two additional jumper cables to the DMM leads. See Figure 2. 1/8 2/8 B/EDischarge of a Capacitor Lab Assignment Note: The capacitor can be found In your Capacitor bag. It will be labeled with the capacitance In uF. on its cylindrical body. It is the largest item In the capacitor bag. The 100 Q reslator can be found In your realstor bag. It will be labeled with the following color code: Brown, Black, Black, Black, Gold (or Silver). Objectives 2. Construct a series circuit as shown in Figure 1. The objectives of this lab are to 1. observe a capacitor as it charges and discharges. A. Use one jumper cable to connect the two battery holders with batteries in place - . determine the time constant and charge accumulation of a capacitor. connect one black wire to the other's red wire. 3. Connect a second jumper cable between the black wire of the connected battery holders and one of the 100 0 resistor wires. Background C. Connect the third jumper cable between the second wire of the 100 Q resistor Review capacitors section in Chapter 19 and 21 in your textbook and PPT slides. and one of the wires of the capacitor. Figure 2. DMM leads connected to jumper cables. Inset picture shows close-up of DMM lead-jumper cable connections. D. Connect the fourth jumper cable between the other wire of the capacitor and the Materials free end of the battery series. 5. Attach the jumper cables from the DMM to the capacitor as shown in Figure 3. Student Supplied Digital stopwatch 1.5 7 AA battery Pen or pencil Battery halder Sheet of paper 47 micro Bated Capacitor Digital multimeter Jumper cable LED Pair of safety goggles 100 0 100 Ohms Resistor resistor "Either a physical stopwatch or computeriphone app may be used ps Jong as it records to 0.01 second. Capacitor" Procedure You will complete a lab report that includes data tables, photos, graphs (if any) following the instructions given in "How to write a formal lab report". The lab report should be a single Word document. You will submit the report by using SUBMIT link given in weekly lab modules in MyHCC (Canvas) lab course. Figure 1. Series RC circuit prior to connecting the DMM to the capacitor. Figure s. Full circuit with DMM included. Part 1: Voltage of a Discharging Capacitor 3. Set the DMM to the 20 DCV setting so it reads as a voltmeter 6. Turn on the DMM and record the voltage for time 1=0 in Data Table 1. Gather the jumper cables, palletjes and holders, the 100 0 resistor, the 47 UE. 7. Place a stopwatch beside the DMM where it can be seen easily. capacitor, and the digital multimeter (DMM) and put on your safety goggles. 4. Connect two additional jumper cables to the DMM leads. See Figure 2. 1/8 2/8 B/EData Tables: Table 2: Natural Log of Voltage and Time for Discharging Capacitor Panel 1: Observations of Current through a capacitor Time (8) Natural Log of Table 1: Voltage and Time for Discharging Capacitor Voltage (V) Record your observations here. Time (s) Voltage (V) 0 10 0.02 -3.91 20 0.02 30 20 -3.91 -3.5 40 0.04 40 -3.21 0.05 -2.49 Write a complete lab report and submit in via Canvas course page and answer following questions in "Discussion" section. "Record the voltage at 10 second intervals until the capacitor discharges to a voltage of Graph 2: Natural Log of Voltage Vs Time Graph OV. Discussion: Graph 1: Voltage Vs Time Graph Voltage (V) vs Time for Discharge How did the current change when the circuit was Initially closed In Part 2 of this Voltage vs time exercise? Explain your answer by referencing Panel 1 and the definitions of a 0.05 capacitor and of current. -45 Voltage IV LGGAGA 10 40 Time It Time Table 3: Calculations Capad tango Initial Voltage Slope (G ') Time CMM Initial Charge (UF) Constant ([6) Raclctance on Capacitor (Maga Ohmc] Q.DE -D.0043 208. 4.45 4.25 47 7/8 8/B 9/8