A - Q4. The circuit of figure 4 has two DC sources, a voltage and current sources voltage source Vdc =10 (V) and Idc = 10(A) respectively. A a resistor R = (r+1)Q, an inductor L = 1mH, with no initial current lo =0 A and a capacitor C = 1 pF without any initial charge are present in the circuit. The two switches Sw1 and Sw2 are closed simultaneously at t%30s. Note that r is the last digit of your student number. For example, if your number is C1700123, then the R (3+1) = 40, or if your number is ending with 0, e.g. C1700100, please use R = (0+1) = 1 Determine: a) The S-domain circuit, drawing the circuit in the s-domain and evaluating the numerical values of all its elements b) S-domain equation of the voltage across the capacitor with zero initial conditions Determine the voltage across the capacitance at steady state ( c) t>>0) R Sw1 Sw2 Vdc Idc Figure 4

r=8

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Q4. The circuit of figure 4 has two DC sources, a voltage and current sources voltage source Vdc =10 (V) and Idc = 10(A) respectively. A a resistor R = (r+1)0 , an inductor L = 1mH, with no initial current lo =0 A and a capacitor C =1 µF without any initial charge are present in the circuit. The two switches Sw1 and Sw2 are closed simultaneously at t-0s. Note that r is the last digit of your student number. For example, if your number is C1700123, then the R = your number is ending with 0, e.g. C1700100, please use R= =(3+1)% 3D40, or if (0+1) =1 Determine: a) The S-domain circuit, drawing the circuit in the s-domain and evaluating the numerical values of all its elements b) S-domain equation of the voltage across the capacitor with zero Initial conditions c) Determine the voltage across the capacitance at steady state ( >>0) R Sw1 Vdc Idc Figure 4