for the capacitor used C = 1000 uF and R1 = 47 Kohms, calculate the time interval required to charge the capacitor from 2.0 V to 7.0 V if Vo = 10.0 V. Compare with this experimental results. Does the time interval depend on Vo?

Transcribed Image Text:

The image presents a data table from an electrical experiment titled "Part I: R2 (Ω) = 47KΩ". The table comprises four columns, detailing values for V(V), t(s), Vo-V(V), and ln(Vo-V). Here is the transcription: **Table Data:** | V(V) | t(s) | Vo-V(V) | ln(Vo-V) | |------|-------|---------|----------| | 0 | 0.000 | 10 | 2.30 | | 1 | 5.160 | 9 | 2.19 | | 2 | 11.20 | 8 | 2.08 | | 3 | 18.57 | 7 | 1.95 | | 4 | 27.96 | 6 | 1.79 | | 5 | 39.86 | 5 | 1.61 | | 6 | 56.92 | 4 | 1.39 | | 7 | 87.81 | 3 | 1.10 | **SLOPE: -0.0138** **Explanation:** - **V(V):** Voltage in volts. - **t(s):** Time in seconds. - **Vo-V(V):** The difference between an initial voltage (Vo) and the current voltage. - **ln(Vo-V):** The natural logarithm of the voltage difference. The slope value of -0.0138 is a key finding from the data analysis, often related to a rate of change in a particular context of an electrical circuit experiment.