In a simple RC circuit design, a resistor (1 MQ) and a capacitor (2 µF) are connected inseries with a switch and a power supply of 20V as shown below.3 of 7AVT(a)(b)Figure 1: A simple RC circuitDetermine the time constant (to), amount of time required for the charge on acharging capacitor to rise to 63% of its final value, of the RC-circuit and verifythat (to) is consistent with your result.What is the maximum voltage and current that can be achieved at the steadystate condition of the capacitor.Write down the specific time-dependent expressions for the relative charge(Q/Q.) development in the capacitor, the relative current flow (I/I,) and therelative potential difference (V/V) measured across the resistor (R) during thecharging and discharging processes respectively.Sketch 3 separate graphs for the time development of the charge (Q) on thecapacitor, current (I) and potential difference (V) across the resistor during theharging and discharging process in the series RC-Circuit.

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