Electronics and Communication Engineering - Networks Analysis and Synthesis
Exercise : Networks Analysis and Synthesis - Section 3
- Networks Analysis and Synthesis - Section 14
- Networks Analysis and Synthesis - Section 27
- Networks Analysis and Synthesis - Section 26
- Networks Analysis and Synthesis - Section 25
- Networks Analysis and Synthesis - Section 24
- Networks Analysis and Synthesis - Section 23
- Networks Analysis and Synthesis - Section 22
- Networks Analysis and Synthesis - Section 21
- Networks Analysis and Synthesis - Section 20
- Networks Analysis and Synthesis - Section 19
- Networks Analysis and Synthesis - Section 18
- Networks Analysis and Synthesis - Section 17
- Networks Analysis and Synthesis - Section 16
- Networks Analysis and Synthesis - Section 15
- Networks Analysis and Synthesis - Section 1
- Networks Analysis and Synthesis - Section 13
- Networks Analysis and Synthesis - Section 12
- Networks Analysis and Synthesis - Section 11
- Networks Analysis and Synthesis - Section 10
- Networks Analysis and Synthesis - Section 9
- Networks Analysis and Synthesis - Section 8
- Networks Analysis and Synthesis - Section 7
- Networks Analysis and Synthesis - Section 6
- Networks Analysis and Synthesis - Section 5
- Networks Analysis and Synthesis - Section 4
- Networks Analysis and Synthesis - Section 3
- Networks Analysis and Synthesis - Section 2
26.
Zinc oxide is a non-linear resistance.
Answer: Option
Explanation:
It is used in lightning arresters due to its non-linear resistance property.
27.
For the three coupled coils shown in figure, KVL equation is
Answer: Option
Explanation:
M12 is positive while M23 and M13 are negative because of dots shown in figure.
28.
Figure shows a dc circuit. The Thevenin's equivalent circuit at terminals a - b is
not feasible
Answer: Option
Explanation:
A current source with series resistance is not feasible.
29.
The dependent current source shown in given figure.
Answer: Option
Explanation:
P = I2.R 
16 x 5 80 W,
Voltage source and current source both are in opposite direction.
30.
The current flowing through the resistance R in the circuit in the figure has the form 2 cos 4t, where R is
Answer: Option
Explanation:
Inductor is not given, hence ignoring the inductance. Let I1 and I2 are currents in the loop then
.
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