The expression of current from the circuit shown below.

i=e200t [c1 cos979.8t-c2 979.8t]A

i=e-200t [c1 cos979.8t+c2 979.8t]A

i=e200t [c1 cos979.8t-c2 979.8t]A

i=e-200t [c1 cos979.8t-c2 979.8t]A

i=e200t [c1 cos979.8t+c2 979.8t]A

The circuit shown in the figure consists of resistance, capacitance and inductance in series with a 100V source when the switch is closed at t = 0. Find the equation obtained from the circuit in terms of current.

100 = 20i – 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$

100 = 20i + 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$

100 = 20i – 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$

100 = 20i + 0.05 $\frac{di}{dt} – \frac{1}{20 \times 10^{-6}} \int idt$

100 = 20i – 0.05 $\frac{di}{dt} – \frac{1}{20 \times 10^{-6}} \int idt$

The expression of current from the circuit shown in the question 5.

i=e200t [c1 cos979.8t-c2 979.8t]A

i=e-200t [c1 cos979.8t+c2 979.8t]A

i=e200t [c1 cos979.8t-c2 979.8t]A

i=e-200t [c1 cos979.8t-c2 979.8t]A

i=e200t [c1 cos979.8t+c2 979.8t]A

16 + Mcqs in Dc Response Rlc in Network Theory Page 1 McqOptions

1.	The current equation obtained from the circuit shown below is?
A.	i=e-200t (1.04 sin979.8t)A
B.	i=e-200t (2.04 sin979.8t)A
C.	i=e-200t (3.04 sin979.8t)A
D.	i=e-200t (4.04 sin979.8t)A
Answer» C. i=e-200t (3.04 sin979.8t)A

Discussion

2.	The voltage across the inductor at t = 0 in the circuit shown below.
A.	50
B.	100
C.	150
D.	200
Answer» C. 150

Discussion

3.	At time t = 0, the value of current in the circuit shown below.
A.	1
B.	2
C.	3
D.	0
Answer» E.

Discussion

4.	The expression of current from the circuit shown below.
A.	i=e-200t [c1 cos979.8t+c2 979.8t]A
B.	i=e200t [c1 cos979.8t-c2 979.8t]A
C.	i=e-200t [c1 cos979.8t-c2 979.8t]A
D.	i=e200t [c1 cos979.8t+c2 979.8t]A
Answer» B. i=e200t [c1 cos979.8t-c2 979.8t]A

Discussion

5.	Replacing the differentiation with D1, D2 in the equation 100 = 20i + 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$. Find the values of D1, D2.
A.	200±j979.8
B.	-200±j979.8
C.	100±j979.8
D.	-100±j979.8
Answer» C. 100±j979.8

Discussion

6.	The circuit shown in the figure consists of resistance, capacitance and inductance in series with a 100V source when the switch is closed at t = 0. Find the equation obtained from the circuit in terms of current.
A.	100 = 20i + 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$
B.	100 = 20i – 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$
C.	100 = 20i + 0.05 $\frac{di}{dt} – \frac{1}{20 \times 10^{-6}} \int idt$
D.	100 = 20i – 0.05 $\frac{di}{dt} – \frac{1}{20 \times 10^{-6}} \int idt$
Answer» B. 100 = 20i – 0.05 $\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt$

Discussion

7.	If the roots of an equation are real and equal, then the response will be?
A.	over damped
B.	damped
C.	critically damped
D.	under damped
Answer» D. under damped

Discussion

8.	For an R-L-C circuit, we get [D – (K1 + K2)][D – (K1 – K2)] i = 0. If K2 is positive, then the curve will be?
A.	damped
B.	over damped
C.	under damped
D.	critically damped
Answer» C. under damped

Discussion

9.	THE_CURRENT_EQUATION_OBTAINED_FROM_THE_CIRCUIT_SHOWN_IN_THE_QUESTION_5.?$
A.	i=e<sup>-200t</sup> (1.04 sin979.8t)A
B.	i=e<sup>-200t</sup> (2.04 sin979.8t)A
C.	i=e<sup>-200t</sup> (3.04 sin979.8t)A
D.	i=e<sup>-200t</sup> (4.04 sin979.8t)A
Answer» C. i=e<sup>-200t</sup> (3.04 sin979.8t)A

Discussion

10.	The voltage across the inductor at t = 0 in the circuit shown in the question 5?
A.	50
B.	100
C.	150
D.	200
Answer» C. 150

Discussion

11.	At time t = 0, the value of current in the circuit shown in the question 5?
A.	1
B.	2
C.	3
D.	0
Answer» E.

Discussion

12.	The expression of current from the circuit shown in the question 5.
A.	i=e<sup>-200t</sup> [c<sub>1</sub> cos979.8t+c<sub>2</sub> 979.8t]A
B.	i=e<sup>200t</sup> [c<sub>1</sub> cos979.8t-c<sub>2</sub> 979.8t]A
C.	i=e<sup>-200t</sup> [c<sub>1</sub> cos979.8t-c<sub>2</sub> 979.8t]A
D.	i=e<sup>200t</sup> [c<sub>1</sub> cos979.8t+c<sub>2</sub> 979.8t]A
Answer» B. i=e<sup>200t</sup> [c<sub>1</sub> cos979.8t-c<sub>2</sub> 979.8t]A

Discussion

13.	Replacing the differentiation with D₁, D₂ in the equation obtained from the question 5. Find the values of D₁, D₂.
A.	200¬¨¬®¬¨¬±j979.8
B.	-200¬¨¬®¬¨¬±j979.8
C.	100¬¨¬®¬¨¬±j979.8
D.	-100¬¨¬®¬¨¬±j979.8
Answer» C. 100¬¨¬®¬¨¬±j979.8

Discussion

14.	If the roots of an equation are complex conjugate, then the response will be?
A.	over damped
B.	critically damped
C.	damped
D.	under damped
Answer» E.

Discussion

15.	If the roots of an equation are real and unequal, then the response will be?
A.	critically damped
B.	under damped
C.	over damped
D.	damped
Answer» D. damped

Discussion

16.	For an R-L-C circuit, we get [D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K₁ + K₂)][D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K₁ ‚Äö√Ñ√∂‚àö√ë‚àö¬® K₂)] i = 0. If K₂ is positive, then the curve will be?
A.	damped
B.	over damped
C.	under damped
D.	critically damped
Answer» C. under damped

Discussion

Explore topic-wise MCQs in Network Theory.

The current equation obtained from the circuit shown below is?

The voltage across the inductor at t = 0 in the circuit shown below.

At time t = 0, the value of current in the circuit shown below.

The expression of current from the circuit shown below.

Replacing the differentiation with D1, D2 in the equation 100 = 20i + 0.05 \(\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt\). Find the values of D1, D2.

The circuit shown in the figure consists of resistance, capacitance and inductance in series with a 100V source when the switch is closed at t = 0. Find the equation obtained from the circuit in terms of current.

If the roots of an equation are real and equal, then the response will be?

For an R-L-C circuit, we get [D – (K1 + K2)][D – (K1 – K2)] i = 0. If K2 is positive, then the curve will be?

THE_CURRENT_EQUATION_OBTAINED_FROM_THE_CIRCUIT_SHOWN_IN_THE_QUESTION_5.?$

The voltage across the inductor at t = 0 in the circuit shown in the question 5?

At time t = 0, the value of current in the circuit shown in the question 5?

The expression of current from the circuit shown in the question 5.

Replacing the differentiation with D₁, D₂ in the equation obtained from the question 5. Find the values of D₁, D₂.

If the roots of an equation are complex conjugate, then the response will be?

If the roots of an equation are real and unequal, then the response will be?

For an R-L-C circuit, we get [D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K₁ + K₂)][D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K₁ ‚Äö√Ñ√∂‚àö√ë‚àö¬® K₂)] i = 0. If K₂ is positive, then the curve will be?

6.	The circuit shown in the figure consists of resistance, capacitance and inductance in series with a 100V source when the switch is closed at t = 0. Find the equation obtained from the circuit in terms of current.
A.	100 = 20i + 0.05 \(\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt\)
B.	100 = 20i – 0.05 \(\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt\)
C.	100 = 20i + 0.05 \(\frac{di}{dt} – \frac{1}{20 \times 10^{-6}} \int idt\)
D.	100 = 20i – 0.05 \(\frac{di}{dt} – \frac{1}{20 \times 10^{-6}} \int idt\)
Answer» B. 100 = 20i – 0.05 \(\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt\)

Explore topic-wise MCQs in Network Theory.

The current equation obtained from the circuit shown below is?

The voltage across the inductor at t = 0 in the circuit shown below.

At time t = 0, the value of current in the circuit shown below.

The expression of current from the circuit shown below.

Replacing the differentiation with D1, D2 in the equation 100 = 20i + 0.05 \(\frac{di}{dt} + \frac{1}{20 \times 10^{-6}} \int idt\). Find the values of D1, D2.

The circuit shown in the figure consists of resistance, capacitance and inductance in series with a 100V source when the switch is closed at t = 0. Find the equation obtained from the circuit in terms of current.

If the roots of an equation are real and equal, then the response will be?

For an R-L-C circuit, we get [D – (K1 + K2)][D – (K1 – K2)] i = 0. If K2 is positive, then the curve will be?

THE_CURRENT_EQUATION_OBTAINED_FROM_THE_CIRCUIT_SHOWN_IN_THE_QUESTION_5.?$

The voltage across the inductor at t = 0 in the circuit shown in the question 5?

At time t = 0, the value of current in the circuit shown in the question 5?

The expression of current from the circuit shown in the question 5.

Replacing the differentiation with D1, D2 in the equation obtained from the question 5. Find the values of D1, D2.

If the roots of an equation are complex conjugate, then the response will be?

If the roots of an equation are real and unequal, then the response will be?

For an R-L-C circuit, we get [D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K1 + K2)][D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K1 ‚Äö√Ñ√∂‚àö√ë‚àö¬® K2)] i = 0. If K2 is positive, then the curve will be?

Replacing the differentiation with D₁, D₂ in the equation obtained from the question 5. Find the values of D₁, D₂.

For an R-L-C circuit, we get [D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K₁ + K₂)][D ‚Äö√Ñ√∂‚àö√ë‚àö¬® (K₁ ‚Äö√Ñ√∂‚àö√ë‚àö¬® K₂)] i = 0. If K₂ is positive, then the curve will be?