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1
GATE EE 1999
MCQ (Single Correct Answer)
+1
-0.3
For the circuit shown in Figure, the capacitance measured between terminals $$B$$ and $$Y$$ will be GATE EE 1999 Electric Circuits - Network Elements Question 34 English
A
$${C_C} + \left( {{C_S}/2} \right)$$
B
$${C_S} + \left( {{C_c}/2} \right)$$
C
$$\left( {{C_S} + 3{C_c}} \right)/2$$
D
$$3{C_c} + 2{C_s}$$
2
GATE EE 1998
MCQ (Single Correct Answer)
+1
-0.3
In the circuit shown in Figure, it is desired to have a constant direct current $$i(t)$$ through the ideal inductor $$L.$$ The nature of the voltage source $$v(t)$$ must be GATE EE 1998 Electric Circuits - Network Elements Question 35 English
A
constant voltage
B
linearly increasing voltage
C
an ideal impulse
D
exponential increasing voltage
3
GATE EE 1997
MCQ (Single Correct Answer)
+1
-0.3
Energy stored in a capacitor over a cycle, when excited by an $$a.c.$$ source is
A
the same as that due to $$d.c.$$ source of equivalent magnitude
B
half of that due to a $$d.c.$$ source of equivalent magnitude
C
zero
D
none of the above
4
GATE EE 1996
MCQ (Single Correct Answer)
+1
-0.3
The v - i characteristic as seen from the terminal pair (A,B) of the network of Fig.(1) is shown in Fig.(2). If an inductance of value 6 mH is connected across the terminal - pair (A,B), the time constant of the system will be GATE EE 1996 Electric Circuits - Network Elements Question 56 English
A
3 µ sec
B
12 sec
C
32 sec
D
unknown, unless the actual network is specified
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GATE EE Subjects
Electric Circuits
Network Elements Network Theorems Three Phase Circuits Transient Response Sinusoidal Steady State Analysis Graph Theory Two Port Networks
Electromagnetic Fields
Time Varying Fields Electrostatics Magnetostatics
Signals and Systems
Continuous and Discrete Time Signals Linear Time Invariant Systems Continuous Time Signal Fourier Transform Discrete Time Signal Z Transformation Continuous Time Signal Laplace Transform Sampling Theorem Continuous Time Periodic Signal Fourier Series Miscellaneous
Electrical Machines
Induction Machines D.C Machines Synchronous Machines Transformers
Engineering Mathematics
Calculus Vector Calculus Linear Algebra Differential Equations Probability and Statistics Transform Theory Complex Variable Numerical Methods
General Aptitude
Verbal Ability Numerical Ability
Power System Analysis
Parameters and Performance of Transmission Lines Power Generation Cost Power System Stability Symmetrical Components and Symmetrical and Unsymmetrical Faults Circuit Breaker Switch Gear and Protection Per Unit System Load Flow Studies High Voltage Dc Transmission Generating Power Station
Electrical and Electronics Measurement
Error Analysis and Measurement Basic of Indicating Instruments Potentiometer and Instrument Transformers Measurement of Resistance and A.C Bridges Measurement of Energy and Power Digital Voltmeters Questions Cathode Ray Oscilloscope
Analog Electronics
Diode Circuits and Applications Bjt and Mosfet Biasing Small Signal Modeling Feedback Amplifiers and Oscillator Circuits Operational Amplifier Frequency Response 555 Timer
Control Systems
Time Response Analysis Block Diagram and Signal Flow Graph Polar Nyquist and Bode Plot State Variable Analysis Root Locus Techniques Basics of Control System Routh Hurwitz Stability Controller and Compensator
Power Electronics
Choppers and Commutation Techniques Single and Three Phase Rectifier Power Semiconductor Devices Ac Voltage Controllers Inverters
Digital Electronics
Boolean Algebra Logic Gates Combinational Circuits Minimization Logic Families and Memories Sequential Circuits Analog to Digital and Digital to Analog Converter Microprocessor
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