Network Theory Multiple Choice Questions on “DC Response of an R-C Circuit”.
1. The current in the R-L circuit at a time t = 0+ is?
A. V/R
B. R/V
C. V
D. R
Answer: A
Clarification: The capacitor never allows sudden changes in voltage, it will act as a short circuit at t = 0+. So the current in the circuit at t = 0+ is V/R.
2. The expression of current in R-C circuit is?
A. i=(V/R)exp(t/RC.
B. i=(V/R)exp(-t/RC.
C. i=(V/R)-exp(t/RC.
D. i=(V/R)-exp(-t/RC.
Answer: B
Clarification: The particular solution of the current equation is zero. So the expression of current in R-C circuit is i=(V/R)exp(-t/RC..
3. In an R-C circuit, when the switch is closed, the response ____________
A. do not vary with time
B. decays with time
C. rises with time
D. first increases and then decreases
Answer: B
Clarification: In a R-C circuit, when the switch is closed, the response decays with time that is the response V/R decreases with increase in time.
4. The time constant of an R-C circuit is?
A. RC
B. R/C
C. R
D. C
Answer: A
Clarification: The time constant of an R-C circuit is RC and it is denoted by τ and the value of τ in dc response of R-C circuit is RC sec.
5. After how many time constants, the transient part reaches more than 99 percent of its final value?
A. 2
B. 3
C. 4
D. 5
Answer: D
Clarification: After five time constants, the transient part of the response reaches more than 99 percent of its final value.
6.A series R-C circuit consists of resistor of 10 and capacitor of 0.1F as shown in the figure. A constant voltage of 20V is applied to the circuit at t = 0. What is the current in the circuit at t = 0?
A. 1
B. 2
C. 3
D. 4
Answer: B
Clarification: At t = 0, switch S is closed. Since the capacitor does not allow sudden changes in voltage, the current in the circuit is i = V/R = 20/10 = 2A. At t = 0, i = 2A.
7. The expression of current obtained from the circuit in terms of differentiation from the circuit shown below?
A. di/dt+i=1
B. di/dt+i=2
C. di/dt+i=3
D. di/dt+i=0
Clarification: By applying Kirchhoff’s law, we get
Differentiating with respect to t, we get 10 di/dt+i/0.1=0 => di/dt+i=0.
8. The current equation in the circuit shown below is?
A. i=2(e-2t)A
B. i=2(e2t)A
C. i=2(-e-2t)A
D. i=2(-e2t)A
Answer: A
Clarification: At t = 0, switch S is closed. Since the capacitor does not allow sudden changes in voltage, the current in the circuit is i = V/R = 20/10 = 2A. At t = 0, i = 2A. The current equation is i=2(e-2t)A.
9. The expression of voltage across resistor in the circuit shown below is?
A. VR = 20(et)V
B. VR = 20(-e-t)V
C. VR = 20(-et)V
D. VR = 20(e-t)V
Answer: D
Clarification: The expression of voltage across resistor in the circuit is VR = iR =(2(e-t))×10=20(e-t)V.
10. Determine the voltage across the capacitor in the circuit shown below is?
A. VC = 60(1-e-t)V
B. VC = 60(1+et)V
C. VC = 60(1-et)V
D. VC = 60(1+e-t)V
Answer: A
Clarification: The expression of voltage across capacitor in the circuit VC = V(1-e-t/RC) = 20(1-e-t)V.