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23 Nov 2019
In an Resistance-Capacitance (RC) circuit, both DC and AC sources can be utilized for both charging and discharging the capacitor. Show one example of an RC circuit in series, for charging the capacitor, and one example in series for discharging a capacitor. Include resistances from 1 mOhm to 100 Ohms, and capacitances between 1 microfarads and 10 farads. Include currents between 1 mA and 10 A. Include voltages between 1 mV and 20 V. Show differences between DC and AC sources. Include graphs for capacitor charging and discharging. Include RC time constants for each of the three circuits. Explain the relative differences between the rates of charging and discharging with respect to the magnitude of the RC time constant.
In an Resistance-Capacitance (RC) circuit, both DC and AC sources can be utilized for both charging and discharging the capacitor. Show one example of an RC circuit in series, for charging the capacitor, and one example in series for discharging a capacitor. Include resistances from 1 mOhm to 100 Ohms, and capacitances between 1 microfarads and 10 farads. Include currents between 1 mA and 10 A. Include voltages between 1 mV and 20 V. Show differences between DC and AC sources. Include graphs for capacitor charging and discharging. Include RC time constants for each of the three circuits. Explain the relative differences between the rates of charging and discharging with respect to the magnitude of the RC time constant.
27 Jun 2023
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