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Electric Circuits
Three Phase Circuits
Marks 1Marks 2
Transient Response
Marks 1Marks 2Marks 5
Graph Theory
Marks 1Marks 2
Two Port Networks
Marks 1Marks 2
Sinusoidal Steady State Analysis
Marks 1Marks 2Marks 5
Network Elements
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Network Theorems
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1
GATE EE 2007
MCQ (Single Correct Answer)
+2
-0.6
The $$R-L-C$$ series circuit shown is supplied from a variable frequency voltage source. The admittance $$-$$ locus of the $$R-L$$ $$-C$$ network at terminals $$AB$$ for increasing frequency $$\omega $$ is GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 12 English
A
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 12 English Option 1
B
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 12 English Option 2
C
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 12 English Option 3
D
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 12 English Option 4
2
GATE EE 2007
MCQ (Single Correct Answer)
+2
-0.6
In the figure given below, all phasors are with reference to the potential at point $$''O''.$$ The locus of voltage phasor $${V_{YX}}$$ as $$R$$ is varied from zero to infinity is shown by GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 11 English
A
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 11 English Option 1
B
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 11 English Option 2
C
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 11 English Option 3
D
GATE EE 2007 Electric Circuits - Sinusoidal Steady State Analysis Question 11 English Option 4
3
GATE EE 2006
MCQ (Single Correct Answer)
+2
-0.6
The circuit shown in the figure is energized by a sinusoidal voltage source $${V_1}$$ at a frequency which causes resonance with a current of $${\rm I}$$. GATE EE 2006 Electric Circuits - Sinusoidal Steady State Analysis Question 13 English

The phasor diagram which is applicable to this circuit is

A
GATE EE 2006 Electric Circuits - Sinusoidal Steady State Analysis Question 13 English Option 1
B
GATE EE 2006 Electric Circuits - Sinusoidal Steady State Analysis Question 13 English Option 2
C
GATE EE 2006 Electric Circuits - Sinusoidal Steady State Analysis Question 13 English Option 3
D
GATE EE 2006 Electric Circuits - Sinusoidal Steady State Analysis Question 13 English Option 4
4
GATE EE 2005
MCQ (Single Correct Answer)
+2
-0.6
The $$RL$$ circuit of the figure is fed from a constant magnitude, variable frequency sinusoidal voltage source $${V_{IN.}}$$ At $$100Hz,$$ the $$R$$ and $$L$$ elements each have a voltage drop $${u_{RMS}}.$$ If the frequency of the source is changed to $$50Hz,$$ then new voltage drop across $$R$$ is GATE EE 2005 Electric Circuits - Sinusoidal Steady State Analysis Question 15 English
A
$$\sqrt {{5 \over 8}} \,\,{u_{RMS}}$$
B
$$\sqrt {{2 \over 3}} \,\,{u_{RMS}}$$
C
$$\sqrt {{8 \over 5}} \,\,{u_{RMS}}$$
D
$$\sqrt {{3 \over 2}} \,\,{u_{RMS}}$$
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Questions Asked from Marks 2
GATE EE 2024 (1) GATE EE 2019 (1) GATE EE 2017 Set 2 (1) GATE EE 2016 Set 1 (2) GATE EE 2015 Set 1 (1) GATE EE 2015 Set 2 (3) GATE EE 2014 Set 2 (2) GATE EE 2014 Set 3 (1) GATE EE 2013 (1) GATE EE 2012 (2) GATE EE 2011 (2) GATE EE 2007 (3) GATE EE 2006 (1) GATE EE 2005 (1) GATE EE 2004 (1) GATE EE 2003 (1) GATE EE 2002 (4) GATE EE 2000 (2) GATE EE 1999 (2) GATE EE 1997 (1) GATE EE 1996 (1) GATE EE 1994 (1)
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