CuriousTab
Search
CuriousTab
Home
Aptitude
Computer
C Programming
C# Programming
C++ Programming
Database
Java Programming
Networking
Engineering
Biochemical Engineering
Biochemistry
Biotechnology
Chemical Engineering
Civil Engineering
Computer Science
Digital Electronics
Electrical Engineering
Electronics
Electronics and Communication Engineering
Mechanical Engineering
Microbiology
Technical Drawing
GK
Current Affairs
General Knowledge
Reasoning
Data Interpretation
Logical Reasoning
Non Verbal Reasoning
Verbal Ability
Verbal Reasoning
Exams
AIEEE
Bank Exams
CAT
GATE
IIT JEE
TOEFL
Jobs
Analyst
Bank PO
Database Administrator
IT Trainer
Network Engineer
Project Manager
Software Architect
Discussion
Home
‣
Electrical Engineering
‣
Circuit Theorems and Conversions
Comments
Question
A certain voltage source has the values
V
S
= 30 V and
R
S
= 6 Ω. The values for an equivalent current source are
Options
A. 5 A, 6 Ω
B. 30 A, 6 Ω
C. 5 A, 30 Ω
D. 30 A, 5 Ω
Correct Answer
5 A, 6 Ω
Circuit Theorems and Conversions problems
Search Results
1. An 18 V source has an internal resistance of 70 Ω. If a load resistance of 33 Ω is connected to the voltage source, the load power,
P
L
, is
Options
A. 0 W
B. 1 W
C. 175 mW
D. 18 mW
Show Answer
Scratch Pad
Discuss
Correct Answer: 1 W
2. A 120 V voltage source has a source resistance,
R
S
, of 60 Ω. The equivalent current source is
Options
A. 2 A
B. 4 A
C. 200 mA
D. 400 mA
Show Answer
Scratch Pad
Discuss
Correct Answer: 2 A
3. Find the current in
R
2
of the given circuit, using the superposition theorem.
Options
A. 16.7 mA
B. 33.3 mA
C. 50 mA
D. 16.6 mA
Show Answer
Scratch Pad
Discuss
Correct Answer: 50 mA
4. Find
R
N
for the circuit given.
Options
A. 34 Ω
B. 68 Ω
C. 120 Ω
D. 154 Ω
Show Answer
Scratch Pad
Discuss
Correct Answer: 154 Ω
5. Find the Thevenin equivalent (
V
TH
and
R
TH
) between terminals A and B of the circuit given.
Options
A. 562 mV, 167 Ω
B. 5.62 V, 167 Ω
C. 5.62 V, 188 Ω
D. 562 mV, 188 Ω
Show Answer
Scratch Pad
Discuss
Correct Answer: 5.62 V, 167 Ω
6. A 120 Ω load is connected across an ideal voltage source with
V
S
= 12 V. The voltage across the load
Options
A. is 0 V
B. is 12 V
C. is 120 V
D. cannot be determined
Show Answer
Scratch Pad
Discuss
Correct Answer: is 12 V
7. A certain current source has the values
I
S
= 4 µA and
R
S
= 1.2 MΩ. The values for an equivalent voltage source are
Options
A. 4.8 µV, 1.2 MΩ
B. 1 V, 1.2 MΩ
C. 4.8 V, 4.8 MΩ
D. 4.8 V, 1.2 MΩ
Show Answer
Scratch Pad
Discuss
Correct Answer: 4.8 V, 1.2 MΩ
8. Find the current through
R
1
in the given circuit.
Options
A. 0.16 A
B. 0.24 A
C. 0.2 A
D. 0.04 A
Show Answer
Scratch Pad
Discuss
Correct Answer: 0.16 A
9. A 680 Ω load resistor,
R
L
, is connected across a constant current source of 1.2 A. The internal source resistance,
R
S
, is 12 kΩ. The load current,
R
L
, is
Options
A. 0 A
B. 1.2 A
C. 114 mA
D. 1.14 A
Show Answer
Scratch Pad
Discuss
Correct Answer: 1.14 A
10. Referring to the given circuit, the voltage and current for the load resistor,
R
L
, is
Options
A. 450 mV, 4.5 mA
B. 4.50 V, 45 mA
C. 4.50 V, 4.5 mA
D. 450 mV, 45 mA
Show Answer
Scratch Pad
Discuss
Correct Answer: 4.50 V, 4.5 mA
Comments
There are no comments.
Enter a new Comment
Save
More in Electrical Engineering:
Alternating Current and Voltage
Branch, Loop and Node Analyses
Capacitors
Circuit Theorems and Conversions
Circuit Theorems in AC Analysis
Energy and Power
Inductors
Magnetism and Electromagnetism
Ohm's Law
Parallel Circuits
Passive Filters
Quantities and Units
RC Circuits
RL Circuits
RLC Circuits and Resonance
Series Circuits
Series-Parallel Circuits
Three-Phase Systems in Power Applications
Time Response of Reactive Circuits
Transformers
Voltage, Current and Resistance