- Voltage Time S Average Voltage V In V Vi V2 V3 0 6 28 6 28 0 29 0 283 1 838 5 2 461 2 812 2 525 2 599 0 955 10 0 880 1 (50.49 KiB) Viewed 62 times
- Voltage Time S Average Voltage V In V Vi V2 V3 0 6 28 6 28 0 29 0 283 1 838 5 2 461 2 812 2 525 2 599 0 955 10 0 880 2 (51.18 KiB) Viewed 62 times
Voltage Time (s) Average voltage, V In V Vi V2 V3 0 6.28 6.28 0.29 0.283 1.838 5 2.461 2.812 2.525 2.599 0.955 10 0.880 1.008 0.884 0.924 -0.079 15 0.3536 0.3908 0.374 0.373 -0.986 20 0.1448 0.1825 0.1511 0.159 -1.839 25 0.0654 0.0806 0.0637 0.0699 -2.661 30 0.0331 0.0395 0.0334 0.0353 -3.344 35 0.0185 0.0223 0.0197 0.0201 -3.907 40 0.0128 0.0142 0.0128 0.0133 -4.319
5 Paragraph Styles k! Paste your graphs here 2. Use your graph in 1(a) and the method described in figure 2 to find an average value for the time constant of the circuit. (5 marks) 3. Use your answer in 2 and the capacitance of the capacitor to find a value for the resistance of the resistor. (3 marks) 4. Use the gradient of your graph in 1(b) and the capacitance of the capacitor to find a second value for the resistance of the resistor. (5 marks) 5. Compare the two values you have obtained for the resistance of the resistor with each other. Calculate a percentage difference using % difference=1 difference of two values for resistance X 100 (3 marks) average of two values for resistance Focu