Tron
Tron Circuit Challenge
Test your knowledge on electrical circuits and theorems with the Tron Circuit Challenge! This quiz covers essential concepts such as superposition, Thevenin's and Norton's theorems, and current flow analysis. Perfect for students and professionals alike, this quiz offers a fun way to reinforce your understanding of electrical engineering principles.
Key Features:
- Multiple choice and checkbox questions
- Focus on circuit analysis techniques
- Designed for electrical engineering enthusiasts
In applying the superposition theorem,
The sources are considered one at a time with all others replaced by their internal impedance
The sources are considered one at a time with all others replaced by their internal resistance
All sources are considered independently
All sources are considered simultaneously
If two currents are in the same direction at any instant of time in a given branch of a circuit, the net current at that instant
Is the difference between the two currents
Is zero
Is the sum of the two currents
Cannot be determined
The two basic components of a Thevenin equivalent ac circuit are
The equivalent voltage source and the equivalent series resistance
The equivalent voltage source and the equivalent parallel resistance
the equivalent voltage source and the equivalent series impedance
The equivalent voltage source and the equivalent parallel impedance
In order to get maximum power transfer from a capacitive source, the load must
be as capacitive as it is inductive
Have an impedance that is the complex conjugate of the source impedance
Have a capacitive reactance equal to circuit resistance
None of these
The Thevenin equivalent voltage is
Equal to the source voltage
The same as the load voltage
the open circuit voltage
None of these
The Norton equivalent current is
the current through the load
The open-current from the source
The open-current from the source
The short circuit current
Norton’s theorem gives
An equivalent voltage source in parallel with an equivalent impedance
an equivalent current source in parallel with an equivalent impedance
an equivalent voltage source in series with an equivalent impedance
An equivalent current source in series with an equivalent impedance
Super position theorem is not applicable for
Current calculations
Voltage calculations
Power calculations
None of the above
KCL works on the principle of which of the following
Law of conservation of charge
Law of conservation of energy
Both
None of the above
In a series R, L circuit, voltage across resistor and inductor are 3 V and 4 V respectively, then what is the applied voltage?
7V
5V
4V
3V
Mesh analysis is prefered when loops are------nodes
Less than
Greater than
Equals to
Any of the above
The common voltage across parallel branches with different voltage sources can be determined by the relation V = (V1 / R1 + V2 / R2 + V3 / R3) / ( 1 / R1 + 1 / R2 +1 / R3 .....) The statement is associated with which theorem ?
Superposition theorem.
Thevenin’s theorem.
Norton’s theorem.
Millman’s theorem.
The current in the resistor R shown in figure will be
0.2 A.
0.4 A.
1A.
2.5 A.
In given figure, the value of resistance R in Ω is
3.5 Ω
35 Ω
15 Ω
5 Ω
In the circuit shown in figure if I1 = 1.5 A, then I2 will be
2 A.
1.5 A.
15 A.
.5 A.
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