2. Modify the circuit in Figure 2 to have two 100 𝜇𝐹 capacitorsin series and calculate the time constant ofthe charging circuit.(S1 is closed and S2 is opened, Capacitor isinitially discharged.)
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1. Modify the circuit in Figure 2 to have two 100 𝜇𝐹 capacitors in parallel and calculate the time constant of the charg
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1. Modify the circuit in Figure 2 to have two 100 𝜇𝐹 capacitors in parallel and calculate the time constant of the charg
1. Modify the circuit in Figure 2 to have two 100 𝜇𝐹 capacitorsin parallel and calculate the time constantof the charging circuit.(S1 is closed and S2 is opened, Capacitoris initially discharged.)
2. Modify the circuit in Figure 2 to have two 100 𝜇𝐹 capacitorsin series and calculate the time constant ofthe charging circuit.(S1 is closed and S2 is opened, Capacitor isinitially discharged.)
E 5V S1 R1 ww 100ΚΩ UR R2 www 100kQ VC a + S2 C1 100μF b R3 12092
2. Modify the circuit in Figure 2 to have two 100 𝜇𝐹 capacitorsin series and calculate the time constant ofthe charging circuit.(S1 is closed and S2 is opened, Capacitor isinitially discharged.)
E 5V S1 R1 ww 100ΚΩ UR R2 www 100kQ VC a + S2 C1 100μF b R3 12092