GATE ECE 2008 | Network Theorems Question 28 | Network Theory

The Thevenin equivalent impedance Z_th between the nodes P and Q in the following circuit is GATE ECE 2008 Network Theory - Network Theorems Question 24 English

GATE ECE 2008 Network Theory - Network Theorems Question 24 English

$$1+s+\frac1{s}$$

$$2+s+\frac1{s}$$

$$\frac{s^2+s+1}{s^2+2s+1}$$

GATE ECE 2007

MCQ (Single Correct Answer)

-0.6

For the circuit shown in the figure, the Thevenin voltage and resistance looking into X-Y are: GATE ECE 2007 Network Theory - Network Theorems Question 25 English

GATE ECE 2007 Network Theory - Network Theorems Question 25 English

$$\frac4{3}V,2\Omega$$

$$4V,\frac2{3}\Omega$$

$$\frac4{3}V,\frac2{3}\Omega$$

$$4V,2\Omega$$

GATE ECE 2005

MCQ (Single Correct Answer)

-0.6

For the circuit shown in figure, Thevenin’s voltage and Thevenin’s equivalent resistance at terminals a – b is

GATE ECE 2005 Network Theory - Network Theorems Question 26 English

5 V and 2 Ω

7.5 V and 2.5 Ω

4 V and 2 Ω

3 V and 2.5 Ω

GATE ECE 2002

MCQ (Single Correct Answer)

-0.6

In the network of Figure, the maximum power is delivered to R_L if its value is

GATE ECE 2002 Network Theory - Network Theorems Question 27 English

16 Ω

(40/3) Ω

60 Ω

20 Ω

Previous Next

Questions Asked from Marks 2

GATE ECE 2024 (1) GATE ECE 2017 Set 2 (1) GATE ECE 2016 Set 1 (1) GATE ECE 2015 Set 2 (1) GATE ECE 2014 Set 3 (2) GATE ECE 2013 (2) GATE ECE 2012 (3) GATE ECE 2009 (1) GATE ECE 2008 (1) GATE ECE 2007 (1) GATE ECE 2005 (1) GATE ECE 2002 (1) GATE ECE 2001 (2) GATE ECE 2000 (1) GATE ECE 1999 (2) GATE ECE 1993 (1) GATE ECE 1989 (2) GATE ECE 1988 (1)

GATE ECE Subjects

Signals and Systems

Network Theory

Control Systems

Digital Circuits

General Aptitude

Electronic Devices and VLSI

Analog Circuits

Engineering Mathematics

Microprocessors

Communications

Electromagnetics