GATE EE 2003 | Network Theorems Question 26 | Electric Circuits

Electric Circuits

Three Phase Circuits

Marks 1 Marks 2

Transient Response

Marks 1 Marks 2 Marks 5

Graph Theory

Marks 1 Marks 2

Two Port Networks

Marks 1 Marks 2

Sinusoidal Steady State Analysis

Marks 1 Marks 2 Marks 5

Network Elements

Marks 1 Marks 2 Marks 5

Network Theorems

Marks 1 Marks 2 Marks 5

GATE EE 2003

MCQ (Single Correct Answer)

-0.6

In Fig. the potential difference between points $$P$$ and $$Q$$ is GATE EE 2003 Electric Circuits - Network Theorems Question 18 English

$$12$$ $$V$$

$$10$$ $$V$$

$$-6$$ $$V$$

$$8$$ $$V$$

GATE EE 2003

MCQ (Single Correct Answer)

-0.6

Two ac sources feed a common variable resistive load as shown in Fig. Under the maximum power transfer condition, the power absorbed by the load resistance $${R_L}$$ is GATE EE 2003 Electric Circuits - Network Theorems Question 17 English

GATE EE 2003 Electric Circuits - Network Theorems Question 17 English

$$2200$$ $$W$$

$$1250$$ $$W$$

$$1000$$ $$W$$

$$625$$ $$W$$

GATE EE 1998

MCQ (Single Correct Answer)

-0.6

Viewed from the terminals $$A, B$$ the following circuit shown in Figure can be reduced to an equivalent circuit of a single voltage source in series with a single resistor with the following parameters: GATE EE 1998 Electric Circuits - Network Theorems Question 19 English

GATE EE 1998 Electric Circuits - Network Theorems Question 19 English

$$5$$ Volt source in series with $$10\,\,\Omega $$ resistor

$$7$$ Volt source in series with $$2.4\,\,\Omega $$ resistor

$$15$$ Volt source in series with $$2.4\,\,\Omega $$ resistor

$$1$$ Volt source in series with $$10\,\,\Omega $$ resistor

GATE EE 1997

Fill in the Blanks

-0

For the circuit shown in Fig, the Norton equivalent source current value is _________ $$A$$ and its resistance is ___________ $$Ohms$$ GATE EE 1997 Electric Circuits - Network Theorems Question 12 English

GATE EE 1997 Electric Circuits - Network Theorems Question 12 English

Questions Asked from Marks 2

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GATE EE Subjects

Electromagnetic Fields

Signals and Systems

Engineering Mathematics

General Aptitude

Power Electronics

Power System Analysis

Analog Electronics

Control Systems

Digital Electronics

Electrical Machines

Electric Circuits

Electrical and Electronics Measurement