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    Introduction to Analog Circuits

    2.44
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    Diode and Its Equation

    6.38
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    Diode Parameters

    3.32
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    Diode Clipper Circuits - A

    11.55
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    Diode Clipper Circuits - B

    7.45
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    Biased Clipper

    9.09
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    Clipper Using Zener Diode

    13.42
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    Introduction to Number System

    10.55
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    Number System Conversion

    24.04
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    Numericals Based on Number System-Part 1

    21.36
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    Numericals Based on Number System-Part 2

    18.14
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    Complement Number Representation

    19.31
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    Clamper Using Diode

    22.16
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    Voltage Doubler /Tripler/Quadrupler

    10.57
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    Rectifier Using Diode

    12.4
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    Signed Number Representation for Binary

    32
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    Important Properties of 1's and 2's Complement Numbers

    17.43
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    Concept of Overflow and Sign Extension

    18.52
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    Subtraction Using R's and (R-1)'s Complement Method

    34.04
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    DC load line of Diode

    7.55
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    Diode Numerical Session 1

    13.39
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    Diode Numerical Session 2

    8.41
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    Diode Numerical Session 3

    12.15
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    Diode Numerical Session 4

    9.36
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    Diode Numerical Session 5

    8.11
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    Binary Codes

    30.06
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    Generation of Gray Code

    14.41
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    Conversion of Binary to Gray and Gray to Binary Codes

    12.57
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    Gate Numerical on Number System Part 1

    28
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    Gate Numerical on Number System Part 2

    25.07
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    BJT Introduction

    9.04
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    BJT CE Configuration

    11.03
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    BJT BJT Q Point & Stability

    13.51
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    BJT Biasing Circuits

    15.01
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    Boolean Laws

    25.16
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    Concept of Minterms and Maxterm

    22.32
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    Problems Based on Minterms and Maxterms

    32.37
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    Complementing the Function

    11.25
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    BJT Small Signal Models

    16.38
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    BJT Small Signal AC analysis

    13.05
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    BJT Frequency Response

    24.01
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    Introduction to K-Map

    15.49
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    Grouping Techniques in K-Map

    31.56
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    Numerical Based on Boolean Algebra

    28.24
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    BJT As a Switch & CB/CC amplifier

    10.36
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    BJT Numerical Session 1

    16.11
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    BJT Numerical Session 2

    11
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    BJT Numerical Session 3

    11.13
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    BJT Numerical Session 4

    8.35
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    BJT Numerical Session 5

    9.56
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    Basic Logic Gates

    6.26
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    Universal Logic Gates

    16.25
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    Numericals Based on Universal Logic Gates

    22.3
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    Ex-OR Gate

    13.37
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    Important Properties of Ex-OR Gate

    20.02
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    Gate Numericals on Logic Gates

    36.04
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    Introduction to Timer IC 555

    10.54
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    555 MMV

    11.01
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    555 AMV

    10.35
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    Introduction to Combinational Logic Circuit

    11.24
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    Half Adder

    7.14
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    Half Subtractor

    7.17
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    Full Adder

    12.23
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    Implementing Full Adder with Half Adder

    10.46
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    Concept of Comparator

    20.47
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    4-Bit Parallel/ Ripple Adder

    15.55
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    4-Bit Serial Adder

    18.46
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    MOSFET Basics

    12.1
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    MOSFET Biasing

    9.3
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    MOSFET AC Model & Amplifier

    10.51
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    As Square Wave Generator

    4.33
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    Timer-555 : Numerical Session 1

    7.07
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    Timer-555 : Numerical Session 2

    6.28
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    4-Bit Adder/ Subtractor

    11.03
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    Encoder

    8.11
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    Decoder

    11.36
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    Full Adder Using 3:8 Decoder

    14.56
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    Decoder Expansion

    17.34
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    Concept of Demultiplexer

    7.37
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    Decoder Using Demultiplexer

    6.35
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    Concept of Multiplexer

    8.47
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    Multiplexer Expansion

    14.4
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    CMOS using MOSFET

    9.44
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    MOSFET Frequency Response

    7.49
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    MOSFET Numerical Session 1

    10.05
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    MOSFET Numerical Session 2

    7.5
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    MOSFET Numerical Session 3

    10
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    MOSFET Numerical Session 4

    8.26
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    MOSFET Numerical Session 5

    4.21
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    Implementing 2:1 Mux Using 4:1 Mux

    8.4
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    2:1 Multiplexer as Universal Logic Circuit

    16.03
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    4:1 Multiplexer as Universal Logic Gate

    5.52
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    Gate Problems on Mux, Decoder and Decoder

    29.13
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    Introduction to Sequential Logic Circuit

    14.44
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    NOR Latch

    14.54
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    NAND Latch

    10.32
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    Introduction

    14.57
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    Comparison and Analysis of Negative Feedback Amplifier

    16.44
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    Negative feedback Numerical Session 1

    7.06
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    Problem with RS Latch

    17.43
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    Delay Latch/Flip Flop

    4.49
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    JK Latch and T- Latch

    7.48
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    Excitation Table for all Latches/Flip Flops

    19.52
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    Latch/Flip Flop Conversion Concept

    23.22
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    SR Latch to JK Latch Conversion

    18.09
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    DA using BJT

    14.37
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    DA Gain Equation

    8.47
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    Negative feedback Numerical Session 2

    8.16
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    Negative feedback Numerical Session 3

    8.28
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    Negative feedback Numerical Session 4

    6
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    D Latch to JK Latch Conversion

    8.58
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    D Latch to T Latch Conversion

    6.46
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    Concept of Triggering

    14.17
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    Difference between Latch and Flipflop

    10.59
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    Behaviour of Flip Flop in Toggle Mode

    13.19
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    Race Around Condition in JK Latch

    14.44
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    Master-Slave JK Flip Flop

    9.03
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    Introduction to Shift Register

    9.17
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    CCS and CM

    11.36
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    DA Using MOSFET and CCS & CM

    8.59
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    DA Numerical Session 1

    13.37
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    DA Numerical Session 2

    7.34
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    DA Numerical Session 3

    4.53
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    Classification of Shift Register

    28.48
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    Ring Counter

    17.46
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    Twisted Ring Counter

    14.12
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    Introduction to Asynchronous Counter

    10.03
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    Asynchronous Up Counter

    15.14
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    Asynchronous Down Counter

    19.45
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    Introduction and Two Stage Analysis

    25.48
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    Cascode Amplifier and Darlington Amplifier

    15.25
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    Asynchronous Up/Down Counter

    14.1
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    Introduction To Asynchronous MOD Counter

    17.3
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    Designing Asynchronous MOD 10 Counter

    11.53
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    Introduction to Synchronous Counter

    11.55
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    Designing Synchronous Counter - Part 1

    12.59
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    Designing Synchronous Counter - Part 2

    15.03
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    Finite State Machine

    10.45
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    Three stage amplifier

    5.24
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    Multistage Amplifier Numerical Session 1

    15.54
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    Multistage Amplifier Numerical Session 2

    8.28
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    Multistage Amplifier Numerical Session 3

    12.18
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    Multistage Amplifier Numerical Session 4

    8.43
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    Non Overlapping Sequence Detector

    16.52
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    Overlapping Sequence Detector

    28.48
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    Gate Numericals Based on Sequential Logic Circuit

    33.18
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    Gate Numericals on FSM

    22.36
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    OP-AMP Introduction

    17.14
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    OP-AMP as Square Wave Generator

    9.12
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    OP-AMP First Order Active Filters

    15.43
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    Introduction to ADC and DAC

    10.4
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    Concept of Specifications of DAC

    16.53
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    Binary weighted Resistor type DAC

    18.53
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    R-2R Ladder type DAC

    7.43
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    Numerical on DAC

    14
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    Counter Type ADC

    23.27
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    Successive Approximation Register type DAC

    20.18
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    Flash Type ADC

    28.52
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    OP-AMP Second Order Active Filters and Instrumentation Amplifier

    13.01
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    OP-AMP Oscillator and Triangular Wave Generator

    14.57
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    OP-AMP Log Circuits and Precision Rectifier

    16.14
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    OP-AMP SCHMITT Trigger circuits

    9.42
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    OP-AMP As comparator

    4.45
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    OP-AMP and Application Numerical Session 1

    7.32
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    OP-AMP and Application Numerical Session 2

    10.23
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    OP-AMP and Application Numerical Session 3

    10.03
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    Numerical session 1

    8.25
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    Numerical session 2

    8.01
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    Numerical session 3

    9.29
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    Numerical session 4

    8.37
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    OP-AMP and Application Numerical Session 4

    7.17
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    OP-AMP and Application Numerical Session 5

    11.25
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    Definition and Parameters

    10.04
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    Zener Voltage Regulator

    11.14
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    Voltage regulator Numerical Session 1

    11.23
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    Voltage regulator Numerical Session 2

    7.59
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    Voltage regulator Numerical Session 3

    7.47
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    Voltage regulator Numerical Session 4

    6.57
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    Voltage regulator Numerical Session 5

    10.17
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    Introduction

    10.23
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    Class A power amplifier

    12.53
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    Class B power amplifier

    12.13
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    Class AB power amplifier

    6.35
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    Class C PA and Heat Sink

    9.25
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    Comparison

    5.17
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    Power amplifier Numerical Session 1

    7.41
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    Power amplifier Numerical Session 2

    6.55
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    Power amplifier Numerical Session 3

    5.07
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    Types of Elements

    13.57
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    Energy Sources

    12.03
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    Problem based on Energy Sources

    8.18
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    Kirchoff's Law

    18.32
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    Introduction of Control System

    37.26
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    Need of Laplace Transform in Control System

    31.05
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    Problems on Laplace Transform

    11.14
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    Transfer Function - Part 1

    28.21
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    Energy and Power for R, L and C

    9.18
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    Problems based on Energy and Power

    36.42
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    Equivalent Circuits

    26.04
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    Problems based on Equivalent Cicuits Part 1

    22.02
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    Problems based on Equivalent Cicuits Part 2

    24.34
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    Transfer Function - Part 2

    41.01
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    Problems based on Transfer Function

    37.05
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    Initial Value and Final Value Theorem

    43.48
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    Solving DC Circuits using KVL/KCL - Part1

    9.26
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    Solving DC Circuits using KVL/KCL - Part2

    23.01
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    Solving DC Circuits using KVL/KCL - Part3

    26.22
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    Solving DC Circuits using KVL/KCL - Part4

    20.03
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    Block Diagram Reduction Rules

    45.37
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    Problem based on Block Diagram Reduction - Part 1

    14.51
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    Problem based on Block Diagram Reduction - Part 2

    19.59
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    Introduction to Signal Flow Graph

    24.5
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    Problem based on Signal Flow Graph - Part 1

    24.38
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    Problem based on Signal Flow Graph - Part 2

    16.44
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    Problem based on Signal Flow Graph - Part 3

    30.01
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    Introduction to Thevenin's and Norton's Theorem

    17.43
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    Problems on TEC and NEC- Part 1

    21.15
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    Problems on TEC and NEC- Part 2

    24.19
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    GATE problem based on Block diagram and SFG

    22.53
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    Introduction to Time Domain Analysis

    29.14
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    Standard 1st Order System Analysis

    23.43
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    Introduction to Superposition Theorem

    11.42
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    Introduction to Maximum Power Transfer Theorem

    40.58
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    Standard 2nd Order System Analysis - Part 1

    54.23
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    Standard 2nd Order System Analysis - Part 2

    48.06
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    Problems on M.P.T. - Part 1

    16.32
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    Introduction to Two Port Network

    23.16
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    Equivalent Circuits in Two Port Network

    21.33
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    Standard 2nd Order System Analysis - Part 3

    25.11
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    Time Domain Specifications

    21.02
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    Location of Poles and Time Domain Specifications

    15.53
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    Problems on 1st Order and 2nd Order Systems

    43.46
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    Interconnection of Two Port Networks

    18.48
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    Symmetricity and Reciprocity in Two Port Network

    34
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    Introduction to Steady State Error

    7.53
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    Static Error Analysis - Part 1

    27.25
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    Static Error Analysis - Part 2

    49.52
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    Standard Two Port Networks and Parameters

    20.57
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    Numericals on Two Port Network - Part 1

    28.43
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    Numericals on Two Port Network - Part 2

    20.35
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    Numericals on Two Port Network - Part 3

    30.24
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    Dynamic Error analysis

    26.58
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    Problems on Error Analysis

    46.51
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    Introduction to Transient Analysis

    22.46
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    Behaviour of R, L and C for t>0

    11.15
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    Numericals on Transients - Part 1

    15.25
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    Concept of Stability

    8.1
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    Routh Hurwitz's Criterion Part 1

    10.58
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    Routh Hurwitz's Criterion Part 2

    50.15
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    Routh Hurwitz's Criterion Part 3

    23.27
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    Numericals on Transients - Part 2

    51.42
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    Routh Hurwitz's Criterion Part 4

    16.23
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    Introduction to Root Locus

    22.44
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    Root Locus - Part 1

    47.28
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    Root Locus - Part 2

    25.04
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    Numericals on Transients - Part 3

    28.28
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    Numericals on Transients - Part 4

    35.43
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    Root Locus - Part 3

    38.47
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    Problems on Routh Hurwitz's Criterion

    25.03
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    Problems on Root Locus

    20.41
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    Introduction to Laplace Transformation

    12.05
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    Application of Laplace Transform in Electrical Circuits

    13.3
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    Numericals on Laplace Transformation - Part 1

    18.09
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    Numericals on Laplace Transformation - Part 2

    25.58
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    Introduction to Frequency Domain Analysis

    24.02
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    FDA for 2nd order system

    41.57
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    Polar Plot - Part 1

    24.31
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    Polar Plot - Part 2

    57.45
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    A.C. Fundamentals

    8.4
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    Concept of Average and RMS values

    17.26
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    Numericals on Average and RMS values

    25.27
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    Polar Plot - Part 3

    37.45
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    Polar Plot - Part 4

    48.48
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    Polar Plot - Part 5

    57.31
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    Vector Representation

    15.57
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    Behaviour of R, L and C in A.C. Circuits

    22.11
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    RL Series Circuit

    10.59
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    RC series Circuit

    12.45
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    Stability in Frequency Domain

    9.42
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    Nyquist Plot - Part 1

    41.13
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    Nyquist Plot - Part 2

    16.37
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    Nyquist Stability Criteria

    28.36
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    RLC Series Circuit

    9.49
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    Classification of Power

    14.06
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    Numericals on Fundamentals of A.C. Circuit - Part 1

    24.35
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    Numericals on Fundamentals of A.C. Circuit - Part 2

    19.02
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    Examples on Nyquist Stability Criteria

    42.17
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    Numericals on Nyquist Stability Criteria

    31.32
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    Relative Stability in Frequency Domain

    40.22
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    Numericals on Fundamentals of A.C. Circuit - Part 3

    19.19
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    Numericals on Fundamentals of A.C. Circuit - Part 4

    14.49
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    Numericals on Fundamentals of A.C. Circuit - Part 5

    16.35
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    Introduction to Bode Plot

    37.2
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    How to Draw Bode Plot

    56.19
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    Numericals on Bode plot

    12.26
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    Relative Stability using Bode Plot

    11.5
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    Numericals on Fundamentals of A.C. Circuit - Part 6

    20.14
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    Series Resonance in A.C. Circuits

    24.06
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    Parallel RL Circuit

    9.44
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    Introduction to Controllers and Compensators

    12.08
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    Compensators

    49.06
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    Controllers

    21.4
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    Numericals on Controllers and Compensators

    10.5
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    Parallel RC Circuit

    8.01
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    Parallel RLC Circuit

    7.06
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    Parallel Resonance in A.C. Circuits - Part 1

    24.15
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    Parallel Resonance in A.C. Circuits - Part 2

    12.38
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    Introduction to State Space Analysis

    69.29
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    State Space Analysis in electrical circuits

    27.02
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    Concept of Q-Factor

    4.2
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    Q-Factor Calculation in RL, RC and RLC Circuits

    9.43
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    Relation between Q factor and Bandwidth

    6.22
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    GATE Numericals on A.C. Circuits - Part 1

    31.44
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    Transfer Function from State Space Model

    48.37
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    Introduction to Canonical Forms

    12.52
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    Controllable Canonical Form

    45.24
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    GATE Numericals on A.C. Circuits - Part 2

    17.3
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    GATE Numericals on A.C. Circuits - Part 3

    19
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    GATE Numericals on A.C. Circuits - Part 4

    30.39
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    Observable Canonical Form

    9.26
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    Examples on Controllable Canonical Form and Observable Canonical Form

    16.49
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    Diagonal Canonical Form

    25.24
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    Jordan’s Canonical Form

    12.39
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    Examples on Diagonal Canonical Form and Jordan Canonical Form

    37.29
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    Introduction to Graph Theory

    19.22
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    Incidence, Cutset and Tieset Marix

    29.17
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    GATE Numericals on Graph Theory - Part 1

    12.48
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    GATE Numericals on Graph Theory - Part 2

    12.45
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    Stability Using State Space

    25.03
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    Solution to State Space Equations (Inverse Laplace Transform Approach)

    58.19
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    Solution to State Space Equations (Cayley Hamilton Theorem)

    39.06
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    Introduction to Coupling factor and Mutual Inductance

    18.24
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    Numericals on Magnetically Coupled Circuit

    14.36
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    Solution to State Space Equations When Input is Non-Zero

    50.05
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    Concept of Controllability and Observability

    23.36
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    Numericals on State Space Analysis

    36.29
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    Numericals Part 01

    60.01
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    Numericals Part 02

    41.26
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    Numericals Part 03

    26.36
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    Numericals Part 04

    46.42
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    Numericals Part 05

    22.06
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    Cartesian Coordinate System

    11.29
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    Line Integration, Surface Integration and Volume Integration in Cartesian Coordinate System

    13.41
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    Numerical 1 on Line Integration

    3.02
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    Numerical 1 on Surface Integration

    2.36
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    Numerical 1 on Volume Integration

    2.26
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    Concept of Signal

    33.03
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    Operation on Continuous Time Signal - Part 1

    36.07
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    Operation on Continuous Time Signal - Part 2

    21.27
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    Course introduction and weightage for GATE exam

    7.33
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    Static Characteristics of Measuring Instruments: Static Error, Accuracy

    15.24
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    Numerical on Accuracy

    9.49
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    Static Characteristics of Measuring Instruments: Precision, Sensitivity

    9.09
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    Numerical on Sensitivity

    14.01
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    Loading Effect

    4.58
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    Cylindrical Coordinate System

    12.50
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    Vector Conversion Between Cylindrical and Cartesian Coordinate System

    8.16
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    Numerical 1 for Vector Conversion Between Cartesian and Cylindrical Coordinate System

    3.15
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    Line Integration, Surface Integration and Volume Integration in Cylindrical Coordinate System

    6.49
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    Numerical 2 on Line Integration

    7.27
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    Numerical Based on Signal

    35.49
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    Elementary Continuous Time Signals

    8.04
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    Operation on Step Signal

    22.14
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    Numericals on Step Signal

    13.1
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    Generation of Signum Function

    24.07
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    Static Characteristics of Measuring Instruments: Resolution, Hysteresis Error, Dead Time, Dead Zone and Linearity

    8.27
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    Numerical on Resolution

    4.04
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    Dynamic Characteristics of Measuring Instruments: Speed of Response, Fidelity and Overshoot

    8.47
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    Types of Static Errors

    13.32
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    Numerical 1 on Error Analysis

    6.08
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    Numerical 2 on Error Analysis

    12.15
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    Numerical 3 on Error Analysis

    8.36
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    Numerical 2 on Surface Integration

    9.43
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    Spherical Coordinate System

    10.06
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    Vector Conversion Between Spherical and Cartesian Coordinate System

    2.36
  • Lock-Btn

    Numerical 1 for Vector Conversion Between Spherical and Cartesian Coordinate System

    3.15
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    Generation of DC Signal and GATE Function

    13.56
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    Elementary Continuous Time Signals - Part 2 (Impulse Signal)

    17.3
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    Elementary Continuous Time Signals - Part 3( Ramp Signal)

    14.26
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    Numericals on Elementary Continuous Time Signals

    18.09
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    Interrelationship Between Elementary Continuous Time Signal

    11.45
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    Operations with Continuous Time Impulse Signal

    14.31
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    Numerical 4 on Error Analysis

    8.25
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    Numerical 5 on Error Analysis

    10.16
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    Numerical 6 on Error Analysis

    7.23
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    Numerical 7 on Error Analysis

    2.47
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    Numerical 8 on Error Analysis

    2.26
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    Numerical 9 on Error Analysis

    3.26
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    Numerical 10 on Error Analysis

    4.57
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    Numerical 11 on Error Analysis

    7.06
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    Numerical 12 on Error Analysis

    2.42
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    Classification of Electrical Instruments

    11.13
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    Torques in Indicating Instruments

    9.3
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    Divergence of Vector and Divergence Theorem

    8.40
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    Numerical 1 on Divergence

    1.47
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    Numerical 2 on Divergence

    2.33
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    Numerical 1 on Divergence Theorem

    2.53
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    Numerical 2 on Divergence Theorem

    3.32
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    Curl and Stoke's Theorem

    6.03
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    Numerical 1 on Curl

    2.48
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    Numerical 2 on Curl

    2.33
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    Product Property of Continuous Time Impulse Signal

    11.2
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    Elementary Discrete Time Signals - Part 1 (Unit Impulse)

    7.58
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    Elementary Discrete Time Signals - Part 2 (Unit Step)

    7.35
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    Elementary Discrete Time Signals - Part 3 (Unit Ramp)

    6.27
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    Elementary Discrete Time Signals - Part 4 (Exponential Signal)

    7.28
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    Classification of Signals - Part 1 (Even and Odd)

    29.08
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    Classification of Signals - Part 2 (Even Conjugate and Odd Conjugate)

    23.05
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    Deflecting Torque

    9.11
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    Controlling Torque

    8.25
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    Damping Torque

    12.51
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    Numerical on Torque

    3.45
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    Permanent Magnet Moving Coil (PMMC) Instrument

    15.38
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    Numerical 1 on PMMC instrument

    1.53
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    Extension of range of PMMC Ammeter

    6.5
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    Numerical 1 on Ammeter Shunts

    3.01
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    Numerical 2 on PMMC Ammeter

    2.57
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    Numerical 1 on Stoke's Theorem

    5.14
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    Gradient of Scalar

    2.59
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    Numerical 1 on Gradient

    3.15
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    Numerical 2 on Gradient

    1.35
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    Classification of Signals - Part 3 (Periodic and Nonperiodic Signals)

    42.22
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    Numericals Based on Periodicity of Signal

    36.1
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    Classification of Signals - Part 4 (Energy and Power)

    16.54
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    Extension of range of PMMC Voltmeter Series Multipliers

    4.58
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    Numerical on Voltmeter Series Multipliers

    6.59
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    Numerical on Loading Effect in Voltmeter

    5.15
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    Moving Iron (MI) Instruments: Attraction Type MI Instruments

    21.45
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    Repulsion Type MI Instruments

    4.21
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    Extension of Range of MI Ammeter

    8.26
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    Numerical 1 on MI Instrument

    5.45
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    Condition for Linear scale in MI instrument

    4.04
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    Numerical 2 on MI Instrument

    5.53
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    Introduction and Coulomb's Law

    6.45
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    Numerical 1 on Coulomb's Law

    2.45
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    Electric Field Intensity

    2.16
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    Numerical 1 on Electric Field Intensity

    2.02
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    Distributed Charges Line Charge Surface Charge and Volume Charge

    5
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    Electric Field Intensity Due to Line Charge

    7.54
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    Numerical 1 on Line Charge Electric Field

    3.27
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    Numericals Based on Energy and Power

    37.52
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    Effect of Time Shifting, Scaling and Reversal on Energy and Power

    34.12
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    Introduction to Systems

    6.42
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    Static and Dynamic Systems

    19.03
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    Errors in PMMC and MI Instruments

    11.34
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    Electrodynamometer (EDM) Type Instruments

    7.56
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    Numerical 1 on EDM Instruments

    5.35
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    Electrodynamometer Wattmeter

    6.51
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    Electrodynamometer Ammeter

    5.36
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    Electrodynamometer Voltmeter

    7.14
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    Error Due to Wattmeter Connection

    10.52
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    Numerical 1 on EDM Instruments

    9.08
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    Electric Field Intensity Due to Surface Charge

    7.32
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    Numerical 1 on Surface Charge Electric Field

    2.34
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    Numerical 2 on Line and Surface Charge Electric Field

    5.17
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    Flux Density and Gauss's Law, Maxwell Equation

    5.34
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    Numerical 1 on Gauss's Law

    5.01
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    Invertible and Non Invertible System

    15.31
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    Causal and Non Causal System

    11
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    Stable and Unstable System

    16.58
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    Time Variant and Time Invariant System

    22.26
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    Linear and Non Linear System

    21.34
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    Errors in Wattmeters due to Potential Coil Inductance

    20.28
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    Numerical 1 on Wattmeter Errors

    4.58
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    Numerical 2 on Gauss's Law

    5.33
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    Numerical 3 on Gauss's Law

    3.04
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    Numerical 4 on Gauss's Law

    3.45
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    Work Done and Electric Potential and Maxwell Equation

    6.46
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    Numerical 1 on Work Done

    2.42
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    Numerical 2 on Work Done

    5.21
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    Impulse Response

    23.12
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    Introduction to Convolution

    17.18
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    Discrete Time Convolution - Part 1

    40.26
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    Errors in Dynamometer Type Instruments

    5.35
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    Numerical 1 on Indicating Instruments

    8.23
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    Numerical 2 on Indicating Instruments

    3.17
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    Numerical 3 on Indicating Instruments

    6.06
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    Numerical 4 on Indicating Instruments

    5.09
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    Numerical 5 on Indicating Instruments

    8.41
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    Numerical 6 on Indicating Instruments

    6.36
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    Numerical 7 on Indicating Instruments

    5.16
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    Numerical 8 on Indicating Instruments

    8.31
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    Numerical 9 on Indicating Instruments

    7.15
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    Numerical 1 on Potential V

    3.35
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    Relationship between E and V

    2.35
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    Numerical 2 on Potential V

    1.57
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    Electric Boundary Condition (Dielectric Dielectric Interface)

    9.24
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    Discrete Time Convolution - Part 2

    25.42
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    Convolution of Input with Impulse Function

    33.01
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    Convolution of Input with Step Function

    27.36
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    Numerical 10 on Indicating Instruments

    4.53
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    Numerical 11 on Indicating Instruments

    3
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    Numerical 12 on Indicating Instruments

    3.54
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    Numerical 13 on Indicating Instruments

    3.33
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    Numerical 14 on Indicating Instruments

    4.51
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    Numerical 15 on Indicating Instruments

    4
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    Measurement of DC Power

    10.18
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    Measurement of Power in 3 Phase Circuit: Two Wattmeter Method

    25.58
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    Numerical on Two Wattmeter Method

    10.42
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    Numerical 1 on Boundary Condition

    10.06
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    Electric Field Behaviour on Conductor

    4
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    Electric Boundary Condition (Dielectric Conductor Interface)

    1.51
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    Numerical 2 on Boundary Condition

    2.59
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    Poission's and Laplace's Equations

    4.54
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    Numerical 1 on Laplace's Equation

    2.46
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    Continuous Time Convolution of Rectangular Pulses

    36.01
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    Numerical based on Continuous Time Convolution

    25.39
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    Convolution of Exponential Signals

    27.48
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    Numerical based on Convolution of Exponential Signal

    12.16
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    Measurement of Reactive Power

    4.11
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    Measurement of Energy: Single Phase Energy Meter

    26.2
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    Numerical 1 on Energy Meter

    5.5
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    Numerical 2 on Energy Meter

    6.21
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    Creeping Error in Energy Meter

    5.04
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    Numerical 3 on Energy Meter

    5.4
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    Numerical 4 on Energy Meter

    2.34
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    Numerical on Measurement of Power and Energy - Part 1

    0
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    Numerical 2 on Laplace's Equation

    3.29
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    Numerical 3 on Laplace's Equation

    4.18
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    Parallel Plate Capacitor

    6.03
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    Coaxial Capacitor

    4.35
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    Spherical Capacitor

    3.38
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    Numerical 1 on Capacitor

    3.09
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    Method of Images (Image Theory)

    3.34
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    Properties of Convolution

    40.47
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    Causality and Stability based on Impulse Response

    31.14
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    Numerical on Measurement of Power and Energy - Part 2

    29.22
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    Numerical 1 on Image Theory

    4.29
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    Numerical 2 on Image Theory

    2.12
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    Continuity Equation and Relaxation Time

    8.28
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    Electric Dipole

    5.01
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    Numerical 1 on Electric Dipole

    2.31
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    Energy Density in Electrostatic Field

    4.40
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    Numerical 1 on Energy Density

    1.5
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    Introduction to Fourier Series

    28.23
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    Fourier Series - Part 1

    22.46
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    Fourier Series - Part 2

    12.54
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    Fourier Series - Part 3

    59.43
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    DC and AC Bridges

    9.32
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    Inductance Measurements: Maxwell-Inductance Bridge

    13.17
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    Maxwell Inductance Capacitance Bridge

    10.35
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    Hays Bridge

    12.19
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    Owne's Bridge

    8.27
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    Anderson's Bridge

    17.14
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    Introduction and Biot Savart Law

    5.57
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    Magnetic Field Intensity Due to Infinite Long Current Carrying Wire

    6.25
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    Numerical 1 Magnetic Field Due to Wire

    2.49
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    Magnetic Field Intensity Due to Finite Length Current Carrying Wire

    5.11
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    Numerical 2 Magnetic Field Due to Wire

    4.09
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    Magnetic Field Due to Circular Loop

    5.16
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    Fourier Series - Part 4

    38.06
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    Fourier Series - Part 5

    25.11
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    Fourier Series - Part 6

    33.43
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    Capacitance Measurement: De-Sauty's Bridge

    6.05
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    Modified De Sauty's Bridge

    11.2
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    Schering Bridge

    8.45
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    Numerical 1 on Bridges

    6.59
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    Numerical 2 on Bridges

    2.27
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    Measurement of Frequency: Wien's Bridge

    8.49
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    Low Resistance Measurement: Kelvin's Double Bridge

    16.14
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    Medium Resistance Measurement: V-A and A-V method

    8.13
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    Numerical 1 on Magnetic Field Due to Circular Loop

    2.12
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    Ampere's Law and Maxwell Equation

    2.36
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    Numerical 1 on Ampere's Law

    4.06
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    Numerical 2 on Ampere's Law

    3.19
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    Magnetic Flux Density and Maxwell Equation

    3.21
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    Magnetic Vector and Scalar Potential

    4.2
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    Numerical 1 on Magnetic Vector Potential

    2.36
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    Properties of Fourier Series - Part 1

    29.31
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    Properties of Fourier Series - Part 2

    22.3
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    Numericals on Fourier Series

    36.55
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    Substitution Method for Medium Resistance Measurement

    6.17
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    Wheatstone Bridge

    3.59
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    Ohm Meter for Medium Resistance Measurement

    8.19
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    High Resistance Measurement: Loss of Charge Method

    6.15
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    Numerical on Loss of Charge Method

    3
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    Meggar for High Resistance Measurement

    7.57
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    Numerical on Measurement of R, L and C - Part 1

    23.23
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    Numerical on Measurement of R, L and C - Part 2

    20.19
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    Magnetic Boundary Condition

    8.57
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    Numerical 1 on Magnetic Boundary Condition

    4.42
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    Numerical 2 on Magnetic Boundary Condition

    5.17
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    Lorentz Force

    3.07
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    Force on Current Carrying Wire in Magnetic Field

    6.45
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    Introduction to Fourier Transform

    42.45
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    Fourier Transform - Part 1

    29.34
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    Weston Type Frequency Meter

    11.56
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    Electrodynamometer Type Power Factor Meter

    11.09
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    Potentiometer or Null Deflector

    12.4
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    Numerical 1 on Potentiometer

    5.1
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    Faraday's Law

    2.32
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    Transformer and Motional EMF

    3.22
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    Numerical 1 on Transformer and Motional EMF

    4.10
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    Modification in Ampere's Law for Time Varying Field

    5.57
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    Maxwell's Equation for Time Varying Field

    2.05
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    Numerical 1 on Displacement Current

    1.56
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    Fourier Transform - Part 2

    51.3
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    Fourier Transform - Part 3

    51.55
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    Instrument Transformers: Ratios of Instrument Transformers

    9.44
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    Current Transformer (CT): Relationships in CT

    24.13
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    Expression of Transformation Ratio in CT

    15.53
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    Expression of Phase Angle in CT

    7.23
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    Errors in CT

    8.44
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    Introduction and EM Wave Equation in Different Mediums(Helmholtz Equation)

    14.34
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    Intrinsic Impedance

    4.12
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    Numerical 1 on EM Wave

    5.15
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    Numerical 2 on EM Wave

    4.56
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    Numerical 3 on EM Wave

    6.5
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    Numerical 4 on EM Wave

    6.53
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    Fourier Transform - Part 4

    45.02
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    Fourier Transform - Part 5

    40.18
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    Turns Compensation in CT

    6.58
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    Potential Transformer(PT): Relationships in PT

    16.2
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    Expression of Transformation Ratio in PT

    19.46
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    Expression of Phase Angle in PT

    9.3
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    Errors in PT

    3.07
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    Turns Compensation in PT

    3.41
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    Numerical 1 on Instrument Transformers

    1.5
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    Numerical 2 on Instrument Transformers

    5.44
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    Loss Tangent and Skin Depth

    4.54
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    Poynting Vector and Power Flow

    4.01
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    Numerical 1 on Poynting Vector

    3.19
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    Numerical 2 on Poynting Vector

    2.04
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    Polarisation of EM Wave

    7.18
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    Numerical 1 on Polarisation

    0.58
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    Numerical 2 on Polarisation

    4.19
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    Fourier Transform - Part 6

    42.58
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    Sampling - Part 1

    44.24
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    Sampling - Part 2

    28.34
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    Numerical 3 on Instrument Transformers

    4.24
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    Numerical 4 on Instrument Transformers

    3.09
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    Numerical 5 on Instrument Transformers

    3.42
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    CRO: Construction and Operation

    17.13
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    Lissajous Pattern

    5.17
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    Numerical on CRO - Part 1

    0
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    Numerical on CRO - Part 2

    16.08
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    Numerical 3 on Polarisation

    2.02
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    Reflection and Transmission of EM Wave

    5.18
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    Numerical 1 on Reflection and Transmission

    2.01
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    Numerical 2 on Reflection and Transmission

    5.36
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    EM Wave Incident on Perfect Conductor

    2.3
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    Numerical 3 on Reflection and Transmission

    2.15
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    Introduction to Laplace Transform

    42.59
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    First Shift Theorem

    34.12
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    Numerical Based on First Shift Theorem and Linearity Property

    49.31
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    Ramp Type Digital Voltmeters

    11.46
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    Integrating Type Digital Voltmeters

    6.12
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    Dual Slope Integrating Type Digital Voltmeters

    7.07
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    Successive Approximation Type Digital Voltmeters

    8.46
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    Digital Multimeters

    7.5
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    Introduction and Primary Constants of Transmission Lines

    4.27
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    V I Equation of Transmission Line

    11.20
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    Impedance of Transmission Line

    3.19
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    Loss Less and Distortion Less Transmission Line

    4.04
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    Impedance for Lossless Transmission Line

    4.31
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    Causality and Stability Based on ROC

    32.05
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    Properties of Laplace Transform

    31.12
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    Numerical Based on Laplace Transform

    31.04
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    Initial and Final Value Theorem

    27.21
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    Numerical on Digital Voltmeters - Part 1

    17.39
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    Numerical on Digital Voltmeters - Part 2

    0
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    Q Meter: Construction and Working

    8.27
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    Numerical 1 on Q Meter

    4.59
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    Numerical 2 on Q Meter

    5.26
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    Numerical 3 on Q Meter

    1.5
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    Numerical 4 on Q Meter

    2.01
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    Numerical 5 on Q Meter

    3.23
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    Numerical 6 on Q Meter

    1.06
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    Numerical 7 on Q Meter

    3.32
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    Numerical 1 on Transmission Line

    1.35
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    Numerical 2 on Transmission Line

    2.17
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    Numerical 3 on Transmission Line

    1.59
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    Numerical 4 on Transmission Line

    1.59
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    Numerical 5 on Transmission Line

    2.32
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    Reflection Coefficient and Standing Wave Ratio

    9.47
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    Numerical 1 on Reflection Coefficient and Standing Wave Ratio

    2.59
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    Numerical 2 on Reflection Coefficient and Standing Wave Ratio

    2.30
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    Numerical 3 on Reflection Coefficient and Standing Wave Ratio

    2.06
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    Numerical 4 on Reflection Coefficient and Standing Wave Ratio

    2.34
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    Numerical 5 on Reflection Coefficient and Standing Wave Ratio

    3.06
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    Introduction to Z-Transform

    44.22
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    Z Transformation for Basic Signals

    35.3
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    Previous Year GATE Questions - Part 1

    0
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    Previous Year GATE Questions - Part 2

    22.58
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    Previous Year GATE Questions - Part 3

    26.19
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    Previous Year GATE Questions - Part 4

    29.03
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    Previous Year GATE Questions - Part 5

    0
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    Previous Year GATE Questions - Part 6

    30.45
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    Previous Year GATE Questions - Part 7

    0
  • Lock-Btn

    Smith Chart

    7.53
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    Numerical 1 on Smith Chart

    3.40
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    Numerical 2 on Smith Chart

    1.07
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    Impedance Matching on Transmission Line

    2.47
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    Z Transformation for Finite and Infinite Length Sequence

    60.56
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    Properties of Z- Transform

    26.04
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    Introduction and Parallel Plane Waveguide

    10.09
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    Wave Angle(Tilt Angle) and Phase and Group Velocity

    7.06
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    Numerical 1 on Parallel Plane Waveguide

    1.20
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    Numerical 2 on Parallel Plane Waveguide

    1.22
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    Transverse Electric Mode(TE) mode in Parallel Plane Waveguide

    4.35
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    Transverse Magnetic Mode(TM) mode in Parallel Plane Waveguide

    3.50
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    Transverse Electromagnetic (TEM) Mode in Parallel Plane Waveguide

    2.35
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    Initial Value Theorem & Final Value Theorem

    22.39
  • Lock-Btn

    GATE Numerical on Z-Transform

    39.44
  • Lock-Btn

    Introduction to Discrete Time Fourier Transform

    31.1
  • Lock-Btn

    Rectangular Waveguide

    4.24
  • Lock-Btn

    Numerical on D.T.F.T.

    15.49
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    Introduction to Discrete Fourier Transform

    42.49
  • Lock-Btn

    Numericals Based on D.F.T.

    15.57
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    Generation of Different Modes in Rectangular Waveguide

    4.17
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    Relationship Between Operating, Cutoff and Guide Wavelength

    2.10
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    Dominating Mode in Rectangular Waveguide

    1.44
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    TM and TE Wave Equation in Rectangular Waveguide

    3.30
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    Numerical 1 on Rectangular Waveguide

    2.11
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    Numerical 2 on Rectangular Waveguide

    1.38
  • Lock-Btn

    Numerical 3 on Rectangular Waveguide

    1.57
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    Numerical 4 on Rectangular Waveguide

    2.29
  • Lock-Btn

    Introduction and Hertzian Dipole Antenna

    7.37
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    Half Wave Dipole Antenna

    1.57
  • Lock-Btn

    Quarter Wave Monopole Antenna

    1.15
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    Basic Definitions of Antenna

    5.19
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    Effective Area and Friis Equation

    2.52
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    Antenna Arrays

    10.41
  • Lock-Btn

    Pattern Multiplication Theorem

    2.33
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    Effective Length of Antenna

    2.52
  • Lock-Btn

    Numerical 1 on Antenna

    2.48
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    Numerical 2 on Antenna

    1.34
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    Numerical 3 on Antenna

    1.33
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    Numerical 4 on Antenna

    2.19
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    Numerical 5 on Antenna

    1.52
  • Lock-Btn

    Numerical 6 on Antenna

    1.09
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    Introduction to Power Electronics

    5.59
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    Ideal and Practical Switch

    10.48
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    Types of Switches

    14.3
  • Lock-Btn

    Numerical 1 on Types of Switches

    5.26
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    Numerical 2 on Types of Switches

    2.15
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    PN Junction Diode- construction and formation of depletion layer

    12.3
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    Biasing of PN Junction Diode

    19.37
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    V-I Characteristic of Diode

    12.47
  • Lock-Btn

    Numerical 1 on Diode

    5.36
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    SCR- Construction

    9.4
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    Forward Biasing of SCR

    21.35
  • Lock-Btn

    Reverse Biasing of SCR

    9.56
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    Introduction of Power System

    31.08
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    Active Power, Reactive Power, Power Factor

    41.47
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    Introduction of Induction Machines

    7.03
  • Lock-Btn

    Difference between Transformer and Induction Machines

    15.06
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    Differences between Synchronous and Asynchronous Machines

    12.27
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    Mutual induction

    11.33
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    Rotating Magnetic Field

    37.44
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    Constructions of IM

    41.14
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    Types of Rotors

    39.32
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    Difference between Slip Ring and Squirrel Cage

    9.47
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    Static V-I Characteristic of SCR

    24.26
  • Lock-Btn

    Numerical 1 on Static V-ICharacteristic of SCR

    14.31
  • Lock-Btn

    Numerical 2 on Static V-I Characteristic of SCR

    19.03
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    Dynamic Characteristic of SCR during Turn ON

    12.06
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    Dynamic Characterstic of SCR during Turn OFF

    24.44
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    Numerical 1 on Dynamic Characteristics of SCR

    15.35
  • Lock-Btn

    Numerical 2 on Dynamic Characteristics of SCR

    9.16
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    GATE Characteristics of SCR

    13.3
  • Lock-Btn

    Numerical 1 on GATE characteristic of SCR

    6.47
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    Introduction of Per Unit Method

    8.44
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    Selection of Base Values

    26.21
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    Numerical Based on Base Values

    6.22
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    Calculation for New P.U. Values

    14.1
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    Operation of Induction Motor

    40.07
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    Speed Equations

    21.01
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    Rotor Equivalent Circuit

    57.18
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    Power Equations

    37.15
  • Lock-Btn

    Problem on Slip

    17.57
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    Problem No.1 on Rotor Speed

    6.37
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    Numerical 2 on GATE characteristic of SCR

    3.23
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    Numerical 3 on GATE characteristic of SCR

    5.45
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    Two Transistor Analogy of SCR: Anode current derivation

    12.17
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    Two Transistor Analogy of SCR: Physical Significance

    9.03
  • Lock-Btn

    Numerical 1 on Two Transistor Analogy of SCR

    2.37
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    Turn ON methods of SCR: Forward Voltage Triggering and GATE Triggering

    17.4
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    dV/dt Triggering

    8.05
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    Temperature and Light Triggering

    9.5
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    Protection of SCR: Over Voltage & Over Current Protection

    13.03
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    Protection of SCR: High dV/dt and High di/dt Protection

    16.11
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    GATE Protection of SCR

    16.07
  • Lock-Btn

    Numerical 1 on Protection of SCR

    10.38
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    Commutation Procedure and Types of Commutation

    8.42
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    Selection of Base Value When Transformer Is Present

    9.19
  • Lock-Btn

    Numerical 1 based on P.U.Method

    9.32
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    Numerical 2 based on P.U.Method

    9.17
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    Per Unit Analysis of Transformer

    8.17
  • Lock-Btn

    Numerical 3 based on P.U.Method

    2.45
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    Problem on Power Equation

    11.04
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    Torque Equations

    33.12
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    Problems on Torque Equation

    27.36
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    Torque- Slip - Speed Characteristics

    19.53
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    Effect of Rotor Resistance on Torque Slip Speed Characteristics

    13.3
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    Effect of supply frequency on Torque Slip Speed Characteristics

    21.16
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    Problem No.2 on Rotor Speed

    11.2
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    Problem No.3 on Rotor Speed

    8.31
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    Effect of Supply Voltage on Torque Slip Speed Characteristics

    27.46
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    Natural Commutation

    14.02
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    Class A Commutation for Low Load Resistor

    18.28
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    Class A Commutation for High Load Resistor

    9.11
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    Numerical 1 on Class A commutation

    5.2
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    Class B Commutation: Circuit Operation

    24.5
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    Class B Commutation: Derivation

    24.28
  • Lock-Btn

    Numerical 1 on Class B commutation

    5.23
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    Numerical 2 on Class B commutation

    7.03
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    Class C Commutation: Circuit Operation

    31.46
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    Introduction of Fault Analysis

    5.5
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    Types of Fault Analysis

    12.37
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    Symmetrical Fault Analysis of Non-Load Generator Assumptions

    16.16
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    Transient on Transmission Line

    18.04
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    Effect of Poles on Torque Slip Speed Characteristics

    7.32
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    Effect of Harmonics on Speed

    53.27
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    Speed Control of Induction Motor by injecting EMF into rotor

    9.3
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    Speed control of Induction Motor by Cascading method

    19.08
  • Lock-Btn

    Double Cage Rotor or Deep Bar Rotor

    11.24
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    Testing on Induction machines

    46.5
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    Starters

    20.58
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    Class C Commutation: Derivation

    9.44
  • Lock-Btn

    Numerical 1 on Class C commutation

    3.55
  • Lock-Btn

    Numerical 2 on Class C commutation

    14.54
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    Class D Commutation: Circuit Operation

    21.47
  • Lock-Btn

    Class D Commutation: Derivation

    9.57
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    Class E Commutation

    14.05
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    Thermal Modelling of SCR

    11.5
  • Lock-Btn

    Numerical 1 on Thermal Modelling of SCR

    3.33
  • Lock-Btn

    Numerical 2 on Thermal Modelling of SCR

    4.25
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    Numerical 3 on Thermal Modelling of SCR

    5.41
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    Series Operation of SCR

    9.4
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    Parallel Operation of SCR

    7.13
  • Lock-Btn

    Numerical 1 on Series and Parallel operation of SCR

    3.44
  • Lock-Btn

    Numerical 2 on Series and Parallel operation of SCR

    4.39
  • Lock-Btn

    Numerical 1 on Diode and SCR combination

    10.5
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    Short Circuit Current & Power Calculation

    11.15
  • Lock-Btn

    Numerical 1 Based on Short Circuit Power

    2.37
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    Symmetrical Fault Analysis Procedure

    3.58
  • Lock-Btn

    Numerical 1 Based on Symmetrical Fault

    12.58
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    Numerical 2 Based on Symmetrical Fault

    4.39
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    Numerical 3 Based on Symmetrical Fault

    5.06
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    Unsymmetrical Fault Analysis

    5.34
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    Sequence Components

    10.22
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    Star - delta starter

    26.52
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    Circle Diagram

    46.19
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    Single Phase Induction Machines

    43.41
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    Resistance Split Phase Induction Motor

    7.42
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    Capacitor split phase IM

    25.37
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    Special machines

    4.28
  • Lock-Btn

    Permanent Magnet DC Motor

    6.23
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    Single Phase AC Series Motor

    13.04
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    Schrage Motor

    7.26
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    Numerical 2 on SCR

    4.03
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    Power MOSFET: Construction, Symbol and V-I Characteristic

    16.34
  • Lock-Btn

    Numerical 1 on Power MOSFET

    4.27
  • Lock-Btn

    Numerical 2 on Power MOSFET

    6.14
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    Insulated GATE Bipolar Transistor: Construction, Symbol and V-I Characteristic

    10.15
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    DIAC: Construction, Symbol and V-I Characteristic

    8.25
  • Lock-Btn

    TRIAC

    4.04
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    Numerical 1 on switch combination

    5.42
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    Numerical 2 on switch combination

    3.45
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    Observation 1

    4.07
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    Observation 2

    2.32
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    Numerical 1 Based on Observation - 2

    5.18
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    Observation 3

    7.2
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    Observation 4

    7.03
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    Numerical 1 Based on Observation - 4

    1.2
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    Sequence Impedence

    2.51
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    Shaded Pole Induction Motor

    9.13
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    Stepper motor

    21.16
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    Previous Year GATE Problems - Part 1

    37.38
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    Previous Year GATE Problems - Part 2

    33.41
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    Previous Year GATE Problems - Part 3

    46.46
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    Rectifier-Introduction

    7.01
  • Lock-Btn

    Single Phase Half Wave Unconrolled Rectifier with R Load: Circuit Operation

    16.55
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    Single Phase Half Wave Unconrolled Rectifier with R Load: Derivations

    25.05
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    Single Phase Half Wave Unconrolled Rectifier with RL Load: Circuit Operation

    17.43
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    Single Phase Half Wave Unconrolled Rectifier with RL Load: Derivations

    10.52
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    Sequence Network of Generator

    10.34
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    Sequence Network for Transformer

    11
  • Lock-Btn

    Numerical 1 Based on Sequence Network

    4.56
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    Numerical 2 Based on Sequence Network

    2.39
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    Single light to ground fault analysis

    13.47
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    Numerical 1 Based on SLG fault

    8.33
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    Line to Line Fault Analysis

    10.02
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    Double Line to Ground Fault Analysis

    12.22
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    Effect of Neutral Grounding

    10.54
  • Lock-Btn

    Numerical 1 Based on Fault Analysis

    8.03
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    Numerical 2 Based on Fault Analysis

    6.15
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    Introduction - Transformers

    10.59
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    Features of Transformer

    19.34
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    Basic Principle of Transformer

    20.38
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    Type of Magnetic Couplings

    13.28
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    Constructions of Transformer Core

    33.24
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    Humming and Stacking Factor

    7.56
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    Difference Between Core Type and Shell Type

    23.02
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    Ideal Shape of Transformer Core

    10.4
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    EMF Equation

    17.54
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    Transformers No Load

    9.44
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    Transformer On-Load

    20.17
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    Single Phase Half Wave Uncontrolled Rectifier with RL load & Free-wheeling Diode- Circuit Operation

    14.15
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    Single Phase Half Wave Uncontrolled Rectifier with RL load & Free-wheeling Diode- Derivations

    7.48
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    Single Phase Half Wave Unconrolled Rectifier with RE Load: Circuit Operation

    17.06
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    Single Phase Half Wave Unconrolled Rectifier with RE Load: Derivations

    14.08
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    Single Phase Half Wave Unconrolled Rectifier with RLE Load: Circuit Operation

    18.55
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    Single Phase Half Wave Unconrolled Rectifier with RLE Load: Derivations

    11.09
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    Single Phase Half Wave Conrolled Rectifier with R Load: Circuit Operation

    18.3
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    Single Phase Half Wave Conrolled Rectifier with R Load: Derivations

    15.1
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    Single Phase Half Wave Conrolled Rectifier with RL Load: Circuit Operation

    12.49
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    Single Phase Half Wave Conrolled Rectifier with RL Load: Derivations

    7.15
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    Source and Load for Reactive Power

    7.14
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    Power Flows in Terms of Active & Reactive Power

    11.49
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    Numerical 1 Based on Power Flow

    6.58
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    Voltage Profile Control & Power Factor Control

    13.49
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    Shunt Capacitor Compensation

    11.26
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    Numerical 1 Based on Shunt Capacitor Compensation

    4.16
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    Effect of leakage flux

    12.44
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    Equivalent Circuit of Transformer

    22.21
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    Losses

    17.18
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    KVA/rating

    9.33
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    Test of transformer

    8.15
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    Open Circuit Test

    40.21
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    Short Circuit Test

    15.57
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    Sumpers test

    7.3
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    Voltage Regulations

    33.12
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    Efficiency Calculation

    23.24
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    Single Phase Half Wave Conrolled Rectifier RL Load with FWD: Circuit Operation

    10.36
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    Single Phase Half Wave Conrolled Rectifier RL Load with FWD: Derivation

    7.18
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    Single Phase Half Wave Conrolled Rectifier with RE Load: Circuit Operation

    15.29
  • Lock-Btn

    Single Phase Half Wave Conrolled Rectifier with RE Load: Derivations

    11.13
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    Single Phase Half Wave Conrolled Rectifier with RLE Load: Circuit Operation

    17.46
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    Single Phase Half Wave Conrolled Rectifier with RLE Load: Derivations

    9.38
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    Numerical 1 on Single Phase Half Wave Controlled Rectifier

    10.52
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    Numerical 2 on Single Phase Half Wave Controlled Rectifier

    16.26
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion with R load- Circuit Operation

    20.23
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion with R load- Derivations

    9.11
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion with RL load- Circuit Operation

    21.59
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion with RL load- Derivations

    8.5
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion RL load with FWD- Circuit Operation

    18.45
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion RL load with FWD- Derivations

    9.04
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion RE load- Circuit Operation

    19.35
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion RE load- Derivations

    13.37
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion RLE load- Circuit Operation

    18.12
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    Single Phase Full Wave Controlled Rectifier: Mid Point Tapped Transformer Configuraion RLE load- Derivations

    9.26
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    Numerical on Mid Point Tapped Transformer Configuration

    9.13
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    Numerical 2 Based on Shunt Capacitor Compensation

    12.12
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    Numerical 3 Based on Shunt Capacitor Compensation

    4.42
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    Numerical 4 Based on Shunt Capacitor Compensation

    7.45
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    Numerical 5 Based on Shunt Capacitor Compensation

    8.26
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    Shunt Inductor Compensation

    6.5
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    Numerical 1 based on Shunt Inductor Compensation

    3.54
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    Synchronus Compensator

    6.36
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    Series Capacitor Compensation

    5.27
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    Series Inductor Compensation

    1.42
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    Voltage Profile Control

    1.34
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    Parallel Operation

    20.13
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    Difference Between Power Transformer and Distribution Transformer

    13.16
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    Auto Transformer

    45.21
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    Auto Transformer Problems

    27.18
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    Harmonics and Non Linearity

    32.08
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    Switching Transients

    21.59
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    3-phase Transformers

    7.58
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    3 Phase Difference Between Core and Shell Type

    7.47
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    Single Phase Fully Controlled Bridge Rectifier with R load: Circuit Operation

    15.13
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    Single Phase Fully Controlled Bridge Rectifier with R load: Derivations

    7.18
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    Single Phase Fully Controlled Bridge Rectifier with RL load: Circuit Operation

    15.3
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    Single Phase Fully Controlled Bridge Rectifier with RL load: Derivations

    7.34
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    Single Phase Fully Controlled Bridge Rectifier RL load with FWD: Circuit Operation

    15.34
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    Single Phase Fully Controlled Bridge Rectifier RL load with FWD: Derivations

    7.25
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    Single Phase Fully Controlled Bridge Rectifier with RE load: Circuit Operation

    13.28
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    Single Phase Fully Controlled Bridge Rectifier with RE load: Derivations

    7.27
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    Single Phase Fully Controlled Bridge Rectifier with RLE load: Circuit Operation

    12.18
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    Single Phase Fully Controlled Bridge Rectifier with RLE load: Derivations

    5.15
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    Single Phase Half Controlled Rectifier: Symmetrical Configuration with R load

    11.55
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    Single Phase Half Controlled Rectifier: Symmetrical Configuration with RL load

    14.03
  • Lock-Btn

    Y-Bus Formulation

    17.19
  • Lock-Btn

    Numerical-1 based on Y-Bus Formulation

    6.5
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    Numerical-2 based on Y-Bus Formulation

    1.31
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    Numerical-3 based on Y-Bus Formulation

    2.11
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    Numerical-4 based on Y-Bus Formulation

    1.43
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    Numerical-5 based on Y-Bus Formulation

    3.59
  • Lock-Btn

    Load flow study and power flow calculation

    9.11
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    Introduction to 3 Phase Transformers

    2.47
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    Delta-Delta Connection

    26.03
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    Star-Star Connection

    24.14
  • Lock-Btn

    Difference between delta-delta & star-star

    19.12
  • Lock-Btn

    Delta-Star Connection

    32.58
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    Star-Delta Connection

    21.49
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    Line turns ratios

    6.58
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    Voltage and Current Ratios

    18.5
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    Delta Zig-Zag Star Connection

    23.34
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    Star Zig-Zag Star Connection

    14.24
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    Single Phase Half Controlled Rectifier: Asymmetrical Configuration with R load

    5.4
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    Single Phase Half Controlled Rectifier: Asymmetrical Configuration with RL load

    8.19
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    Input Power Factor for RL and RLE load: Part-I

    12.55
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    Input Power Factor for RL and RLE load: Part-II

    21.4
  • Lock-Btn

    Input Power Factor for RL and RLE load: Part-III

    9
  • Lock-Btn

    Numerical 1 on Single Phase Controlled Rectifiers

    6.28
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    Numerical 2 on Single Phase Controlled Rectifiers

    7.3
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    Numerical 3 on Single Phase Controlled Rectifiers

    9.38
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    Numerical 4 & 5 on Single Phase Controlled Rectifiers

    15
  • Lock-Btn

    Numerical 6 on Single Phase Controlled Rectifiers

    14.51
  • Lock-Btn

    Numerical 7 on Single Phase Controlled Rectifiers

    15.32
  • Lock-Btn

    Classification Of Buses

    31.42
  • Lock-Btn

    Gauss Siedel method part 1

    7.08
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    Gauss siedel method part 2

    6.13
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    Gauss siedel method part 3

    10.06
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    Open Delta Connection

    27.14
  • Lock-Btn

    Scott Connection

    39.09
  • Lock-Btn

    T-T connection

    4.56
  • Lock-Btn

    Switch question on 3 phase Transformers

    5.11
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    Problem on MMF Balancing

    16.53
  • Lock-Btn

    Problem on 3 Phase Transformer

    5.07
  • Lock-Btn

    Parallel Operation of 3 Phase Transformer

    17.29
  • Lock-Btn

    Previous Year GATE Problems - Part 1

    31.01
  • Lock-Btn

    Previous Year GATE Problems - Part 2

    38.09
  • Lock-Btn

    Previous Year GATE Problems - Part 3

    34.17
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    Previous Year GATE Problems - Part 4

    40.32
  • Lock-Btn

    Previous Year GATE Problems - Part 5

    38.33
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    Previous Year GATE Problems - Part 6

    48.36
  • Lock-Btn

    Previous Year GATE Problems - Part 7

    41.51
  • Lock-Btn

    Numerical 8 on Single Phase Controlled Rectifiers

    16.29
  • Lock-Btn

    Numerical 9 on Single Phase Controlled Rectifiers

    13.01
  • Lock-Btn

    Three Phase Half Wave Controlled Rectifier with R load: Part-I

    10.05
  • Lock-Btn

    Three Phase Half Wave Controlled Rectifier with R load: Part-II

    21.3
  • Lock-Btn

    Three Phase Half Wave Controlled Rectifier with R load: Part-III

    7.52
  • Lock-Btn

    Three Phase Half Wave Controlled Rectifier with R load: Part-IV

    8.48
  • Lock-Btn

    Three Phase Half Wave Controlled Rectifier with R load: Part-V

    20.28
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    Three Phase Half Wave Controlled Rectifier with RL load: Part-I

    9.43
  • Lock-Btn

    Three Phase Half Wave Controlled Rectifier with RL load: Part-II

    11.01
  • Lock-Btn

    Three Phase Full Wave Controlled Rectifier with R load: Part-I

    7.07
  • Lock-Btn

    Gauss Siedel Method Part 4

    6.44
  • Lock-Btn

    Newton Raphson Method part -1

    9.57
  • Lock-Btn

    Newton Raphson Method part -2

    20.03
  • Lock-Btn

    Newton Raphson Method part -3

    9.1
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    Numerical-1 based on Y-Newton Raphson Method

    3.49
  • Lock-Btn

    Numerical-2 based on Y-Newton Raphson Method

    2.2
  • Lock-Btn

    Numerical-3 based on Y-Newton Raphson Method

    2.01
  • Lock-Btn

    Numerical-4 based on Y-Newton Raphson Method

    3.18
  • Lock-Btn

    Three Phase Full Wave Controlled Rectifier with R load: Part-II

    29.47
  • Lock-Btn

    Three Phase Full Wave Controlled Rectifier with R load: Part-III

    7.35
  • Lock-Btn

    Three Phase Full Wave Controlled Rectifier with R load: Part-IV

    8.31
  • Lock-Btn

    Three Phase Full Wave Controlled Rectifier with R load: Part-V

    17.57
  • Lock-Btn

    Three Phase Full Wave Controlled Rectifier with RL load

    10.16
  • Lock-Btn

    Numerical 1 on Three Phase Controlled Rectifiers

    14.56
  • Lock-Btn

    Numerical 2 on Three Phase Controlled Rectifiers

    7.04
  • Lock-Btn

    Numerical 3 on Three Phase Controlled Rectifiers

    6.24
  • Lock-Btn

    Numerical 4 on Three Phase Controlled Rectifiers

    11.27
  • Lock-Btn

    Effect of Source Inductance in Single Phase Rectifiers: Circuit Operation

    18.37
  • Lock-Btn

    Effect of Source Inductance in Single Phase Rectifiers: Derivation

    8.13
  • Lock-Btn

    Introduction of Power System Stability

    20.42
  • Lock-Btn

    Power System Model for Stability Studies

    18.09
  • Lock-Btn

    Power System Stability Limit

    3.13
  • Lock-Btn

    Multi Machine

    3.37
  • Lock-Btn

    Swing Equation

    15.3
  • Lock-Btn

    Types of Inverters

    8.01
  • Lock-Btn

    Single Phase Half Bridge Inverter with R Load- Circuit Operation

    15.52
  • Lock-Btn

    Fourier Series Analysis of Output Voltage & Current of single phase Half Bridge Inverter With R load

    18.08
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    Harmonic Contents in Output Voltage of single phase Half Bridge Inverter With R load

    15.19
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    Single Phase Half Bridge Inverter with RL Load- Circuit Operation

    21.02
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    Fourier Series Analysis of Output Voltage & Curent of single phase Half Bridge Inverter With RL load

    11.02
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    Single Phase Full Bridge Inverter with R Load- Circuit Operation

    9.37
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    Fourier Series Analysis of Output Voltage & Current of single phase Full Bridge Inverter With R load

    14.48
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    Harmonic Contents in Output Voltage of single phase Full Bridge Inverter With R load

    14.44
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    Single Phase Full Bridge Inverter with RL load

    16.12
  • Lock-Btn

    Comparison of DC Machines with Synchronous Machine

    10.03
  • Lock-Btn

    Basic Principle of DC Generator

    12.49
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    Simple Loop Analysis

    17.56
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    Construction of DC Machine

    14.15
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    Parts of DC Machine

    37.38
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    Windings

    59.45
  • Lock-Btn

    Numerical-1 Based on Swing Equation

    9.31
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    Analysis of Steady State Stability

    9.56
  • Lock-Btn

    Numerical-1 Based on Steady State Stability

    4.25
  • Lock-Btn

    Numerical-2 Based on Steady State Stability

    2.15
  • Lock-Btn

    Large Signal Stability

    15.34
  • Lock-Btn

    Equal Area Criteria

    11.11
  • Lock-Btn

    Numerical-1 Based on Equal Area Criteria

    5.19
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    Fourier Series Analysis of Output Voltage & Curent of single phase Full Bridge Inverter With RL load

    13.21
  • Lock-Btn

    Numerical 1 on Single Phase Full Bridge Inverter

    12.02
  • Lock-Btn

    Numerical 2 on Single Phase Full Bridge Inverter

    8.22
  • Lock-Btn

    Numerical 3 on Single Phase Full Bridge Inverter

    11.3
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    Numerical 4 on Single Phase Full Bridge Inverter

    8.44
  • Lock-Btn

    Numerical 5 on Single Phase Full Bridge Inverter

    7.48
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    Performance Parameters of Inverters

    8.03
  • Lock-Btn

    Numerical on Performance Parameters of Inverters

    5.33
  • Lock-Btn

    Voltage control in Inverters: External Control and Series Inverter Control

    20.33
  • Lock-Btn

    Voltage control in Inverters: Single Pulse Width Modulation Technique

    18.57
  • Lock-Btn

    Single Pulse Width Modulation Technique: Fourier Series Analysis

    21.21
  • Lock-Btn

    Equalizer Rings

    13.11
  • Lock-Btn

    EMF Equation

    23.2
  • Lock-Btn

    Questions on Brush Damage

    19.5
  • Lock-Btn

    Armature Reaction

    26.37
  • Lock-Btn

    Methods to Improve Commutation and Calculations

    32.55
  • Lock-Btn

    Commutation

    25.33
  • Lock-Btn

    Conditions to Buildup EMF in Self Excited Generator

    14.2
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    Application of Equal Area Criteria (Case-1)

    16.25
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    Application of Equal Area Criteria (Case -2)

    5.43
  • Lock-Btn

    Application of Equal Area Criteria (Case-3)

    5.11
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    Application of Equal Area Criteria (Case-4)

    8.39
  • Lock-Btn

    Numerical-1 based on Power System Stability

    13.33
  • Lock-Btn

    Numerical-2 based on Power System Stability

    7.58
  • Lock-Btn

    Numerical-3 Based on Power System Stability

    2.18
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    Factors Affecting Transient Stability

    3.17
  • Lock-Btn

    Single Pulse Width Modulation Technique: Harmonic Content in output voltage

    10.09
  • Lock-Btn

    Multiple Pulse Width Modulation Technique: Operation

    4.41
  • Lock-Btn

    Multiple Pulse Width Modulation Technique: Derivations

    9.42
  • Lock-Btn

    Numerical 1 on Pulse Width Modulation Technique

    4.16
  • Lock-Btn

    Numerical 2 on Pulse Width Modulation Technique

    6.01
  • Lock-Btn

    Numerical 3 on Pulse Width Modulation Technique

    9.59
  • Lock-Btn

    Numerical 4 on Pulse Width Modulation Technique

    5.05
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    Bipolar Sinusoidal Pulse Width Modulation

    16.24
  • Lock-Btn

    Unipolar Sinusoidal Pulse Width Modulation

    10.24
  • Lock-Btn

    Numerical on Sinusoidal Pulse Width Modulation

    10.14
  • Lock-Btn

    Harmonic Reduction in Inverter

    6.29
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    Harmonic Reduction by Transformer Connection

    17.52
  • Lock-Btn

    Harmonic Reduction by stepped wave invereter

    5.54
  • Lock-Btn

    Three Phase Inverters: 180 degree mode- Circuit diagram and operation

    7.04
  • Lock-Btn

    180 degree conduction mode- Interval I, II and III

    18.53
  • Lock-Btn

    Types of DC Generators

    9.34
  • Lock-Btn

    Separately Excited DC Generator

    11.05
  • Lock-Btn

    DC Shunt Generator

    11.56
  • Lock-Btn

    DC Series Generators

    8.32
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    DC Compound Generator

    35.32
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    Losses

    11.28
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    Condition for Maximum Efficiency

    5.33
  • Lock-Btn

    Parallel Operation of DC Generators

    28.22
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    Introduction of DC Motor

    18.16
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    Back EMF

    7.11
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    Power and Torque Equations of DC Motor

    19.14
  • Lock-Btn

    Types of DC Motors

    6.21
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    Introduction of Transmission Line Parameter

    20.42
  • Lock-Btn

    Introduction of Performance Parameter

    10
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    Classification of Transmission lines

    3.38
  • Lock-Btn

    Short Transmission lines

    13.32
  • Lock-Btn

    Voltage Regulation of Short Transmission Line

    18.29
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    180 degree conduction mode- Interval IV, V and VI

    11.57
  • Lock-Btn

    180 degree conduction mode- derivations

    8.43
  • Lock-Btn

    180 degree conduction mode: Fourier series analysis of Output Voltage- Part-I

    34.14
  • Lock-Btn

    180 degree conduction mode: Fourier series analysis of Output Voltage- Part-II

    11.31
  • Lock-Btn

    Three Phase Inverters: 120 degree mode- Circuit diagram and operation

    6.08
  • Lock-Btn

    120 degree conduction mode- Interval I, II and III

    10.07
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    120 degree conduction mode- Interval IV, V and VI

    19.21
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    Numerical 1 on Three Phase Inverters

    7.26
  • Lock-Btn

    Numerical 2 on Three Phase Inverters

    3.18
  • Lock-Btn

    Numerical 3 on Three Phase Inverters

    5.33
  • Lock-Btn

    Current Source Inverter

    12
  • Lock-Btn

    Seperately Excited DC Motor

    11.05
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    DC Shunt Motor

    11.2
  • Lock-Btn

    DC Series Motor

    14.07
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    DC Compound Motor

    25.58
  • Lock-Btn

    Flux Control Method

    25.12
  • Lock-Btn

    Armature Resistance Control Method

    21.45
  • Lock-Btn

    Voltage Control and Ward-Leonard Control Method

    15.17
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    Braking

    36.27
  • Lock-Btn

    Starters

    24.01
  • Lock-Btn

    Numerical-1 based on Short Transmission Line

    9.3
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    Medium Transmission Line (Nominal-T)

    16.44
  • Lock-Btn

    Medium Transmission Line (Nominal-Pie )

    8.49
  • Lock-Btn

    End Compensated Network

    10.26
  • Lock-Btn

    Long Transmission Line

    3.52
  • Lock-Btn

    Propogation Constant

    6.56
  • Lock-Btn

    Phase Constant

    3.08
  • Lock-Btn

    Introduction to Chopper

    6.14
  • Lock-Btn

    Step Down Chopper

    11.51
  • Lock-Btn

    Buck Converter: Part-I

    20.56
  • Lock-Btn

    Buck Converter: Part-II

    16.37
  • Lock-Btn

    Buck Converter: Part-III

    16.11
  • Lock-Btn

    Buck Converter: Part-IV

    19.33
  • Lock-Btn

    Buck Converter: Part-V

    6.19
  • Lock-Btn

    Numerical 1 on Buck Converter

    11.47
  • Lock-Btn

    Numerical 2 on Buck Converter

    11.16
  • Lock-Btn

    Numerical 3 on Buck Converter

    13.17
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    Calculations of Starters

    16.41
  • Lock-Btn

    Brake Test

    10.42
  • Lock-Btn

    Swinburne Test and Retardation Test

    16.09
  • Lock-Btn

    Hopkinson Test

    18.36
  • Lock-Btn

    Field Test

    13.36
  • Lock-Btn

    Special Questions-1

    46.58
  • Lock-Btn

    Special Questions-2

    20.12
  • Lock-Btn

    Question on Braking

    5.41
  • Lock-Btn

    Question on Losses

    6.07
  • Lock-Btn

    Previous Year GATE Problems - Part 1

    42.23
  • Lock-Btn

    Previous Year GATE Problems - Part 2

    36.32
  • Lock-Btn

    Previous Year GATE Problems - Part 3

    43.55
  • Lock-Btn

    Previous Year GATE Problems - Part 4

    49.11
  • Lock-Btn

    Previous Year GATE Problems - Part 5

    34.19
  • Lock-Btn

    Numerical-1 based on Performance Parameter

    3.53
  • Lock-Btn

    Numerical-2 based on Performance Parameter

    1.54
  • Lock-Btn

    Numerical-3 based on Performance Parameter

    4.29
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    Numerical-4 based on Performance Parameter

    4.27
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    Characteristic Impedance and Surge Impedance

    10.2
  • Lock-Btn

    Numerical-1 based on Surge Impedance Loading

    3.21
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    Effect of Compensation on Surge Impedance Loading

    12.36
  • Lock-Btn

    Numerical-1 based on Effect of Compensation on SIL

    4.53
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    Numerical-2 based on Effect of Compensation on SIL

    2.29
  • Lock-Btn

    Buck Converter: Discontinuous Conduction

    13.37
  • Lock-Btn

    Boost Converter: Part-I

    13.15
  • Lock-Btn

    Boost Converter: Part-II

    14.41
  • Lock-Btn

    Boost Converter: Part-III

    12.49
  • Lock-Btn

    Numerical 1 on Boost Converter

    3.33
  • Lock-Btn

    Numerical 2 on Boost Converter

    11.54
  • Lock-Btn

    Numerical 3 on Boost Converter

    9.33
  • Lock-Btn

    Boost Converter: Discontinuous Conduction

    11.34
  • Lock-Btn

    Buck-Boost Converter: Part-I

    18.12
  • Lock-Btn

    Buck-Boost Converter: Part-II

    10.57
  • Lock-Btn

    Buck-Boost Converter: Part-III

    16.13
  • Lock-Btn

    Previous Year GATE Problems - Part 6

    37.11
  • Lock-Btn

    Introduction of Switchgear

    5.58
  • Lock-Btn

    Arcing Phenomena of Circuit Breaker

    5.28
  • Lock-Btn

    Arc Interruption Method

    3.53
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    Arc Restriking Phenomena

    8.49
  • Lock-Btn

    Numerical-1 Based on Arc Restriking Phenomena

    1.41
  • Lock-Btn

    Numerical-2 Based on Arc Restriking Phenomena

    2.14
  • Lock-Btn

    RRRV

    4.07
  • Lock-Btn

    Current Chopping Phenomena

    6.55
  • Lock-Btn

    Resistance Switching

    3.08
  • Lock-Btn

    Numerical-1 Based on Resistance Switching

    1.29
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    Rating of Circuit Breaker

    5.33
  • Lock-Btn

    Numerical-1 Based on Rating of Circuit Breaker

    1.58
  • Lock-Btn

    Numerical-2 Based on Rating of Circuit Breaker

    1.56
  • Lock-Btn

    Types of Circuit Breaker (Part-1)

    4.53
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    Types of Circuit Breaker (Part-2)

    2.49
  • Lock-Btn

    Numerical 1 on Buck-Boost Converter

    8.39
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    Numerical 2 on Buck-Boost Converter

    11.58
  • Lock-Btn

    Numerical 3 on Buck-Boost Converter

    4.34
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    Buck Boost Converter: Discontinuous Conduction

    10.22
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    Type A, B and C Choppers

    9.54
  • Lock-Btn

    Type D & E Choppers

    8.53
  • Lock-Btn

    Numerical 1 on Types of Choppers

    5.51
  • Lock-Btn

    Single Phase Half Wave AC Voltage Controller with R Load

    18.02
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    Single Phase Half Wave AC Voltage Controller with RL Load

    20.42
  • Lock-Btn

    Single Phase Full Wave AC Voltage Controller with R load

    14.52
  • Lock-Btn

    Single Phase Full Wave AC Voltage Controller with RL load

    15
  • Lock-Btn

    Integral Cycle Control Method

    10
  • Lock-Btn

    Introduction to AC Machines

    28.05
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    Basic Principle

    24.39
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    Simple Loop Analysis

    17.13
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    Construction of Synchronous Machine

    23.47
  • Lock-Btn

    Types of Rotors

    27.35
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    Introduction of Relay (Part-1)

    10.32
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    Introduction of Relay (Part-2)

    9.03
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    Time Multiplier Setting

    2.46
  • Lock-Btn

    Current Setting

    4.53
  • Lock-Btn

    Plug Setting Multiplier

    6.59
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    Over Current Protection

    7.59
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    Over Current Protection of Radial Feeder

    12.58
  • Lock-Btn

    Numerical-1 Based on Radial Feeder

    2.13
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    Numerical 1 On AC Voltage Controller

    3.18
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    Numerical 2 On AC Voltage Controller

    11.1
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    Numerical 3 On AC Voltage Controller

    4.41
  • Lock-Btn

    Previous Year GATE Question 1

    5.05
  • Lock-Btn

    Previous Year GATE Question 2

    2.5
  • Lock-Btn

    Previous Year GATE Question 3

    6.24
  • Lock-Btn

    Previous Year GATE Question 4

    4.2
  • Lock-Btn

    Previous Year GATE Question 5

    2.15
  • Lock-Btn

    Previous Year GATE Question 6

    4.17
  • Lock-Btn

    Previous Year GATE Question 7

    4.26
  • Lock-Btn

    Previous Year GATE Question 8

    7.23
  • Lock-Btn

    Previous Year GATE Question 9

    5.57
  • Lock-Btn

    Previous Year GATE Question 10

    2.4
  • Lock-Btn

    Previous Year GATE Question 11

    5.29
  • Lock-Btn

    Previous Year GATE Question 12

    2.05
  • Lock-Btn

    Previous Year GATE Question 13

    7.58
  • Lock-Btn

    Previous Year GATE Question 14

    5.28
  • Lock-Btn

    Previous Year GATE Question 15

    4.07
  • Lock-Btn

    Previous Year GATE Question 16

    13.01
  • Lock-Btn

    Previous Year GATE Question 17

    10.14
  • Lock-Btn

    Previous Year GATE Question 18

    15.14
  • Lock-Btn

    Previous Year GATE Question 19

    7.24
  • Lock-Btn

    Types of Windings

    20.16
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    Full Pitch and Short Pitch Windings

    36.56
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    Concentrated and Distributed Windings

    40.49
  • Lock-Btn

    Uniformly Distributed Winding

    11.2
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    Remaining Windings

    13.3
  • Lock-Btn

    EMF Equation

    23.2
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    EMF and KVA Relations for Different Phases

    15.52
  • Lock-Btn

    Voltage Drops in Synchronous Machine

    18.06
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    Vector Diagram

    8.41
  • Lock-Btn

    Over Current Protection of Parellel Lines

    2.57
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    Directional and Non Directional Relay

    2.54
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    Over Current Protection of Ring Mains

    5.47
  • Lock-Btn

    Numerical-1 based on Overcurrent Protection

    2.21
  • Lock-Btn

    Types Of Distance Protection

    2.15
  • Lock-Btn

    Impedance Relay

    5.35
  • Lock-Btn

    Reactance Relay

    6.08
  • Lock-Btn

    Mho Relay

    2.49
  • Lock-Btn

    Observation Based on Distance Protection

    12.02
  • Lock-Btn

    Three Zone Protection

    8.42
  • Lock-Btn

    Numerical-1 Based on Distance Protection

    1.36
  • Lock-Btn

    Differential Protection

    6.15
  • Lock-Btn

    Previous Year GATE Question 20

    11.56
  • Lock-Btn

    Previous Year GATE Question 21

    9.03
  • Lock-Btn

    Previous Year GATE Question 22

    6.2
  • Lock-Btn

    Previous Year GATE Question 23

    9.18
  • Lock-Btn

    Previous Year GATE Question 24

    6.41
  • Lock-Btn

    Previous Year GATE Question 25

    15.13
  • Lock-Btn

    Previous Year GATE Question 26

    4.35
  • Lock-Btn

    Previous Year GATE Question 27

    8.07
  • Lock-Btn

    Previous Year GATE Question 28

    5.26
  • Lock-Btn

    Previous Year GATE Question 29

    4.48
  • Lock-Btn

    Previous Year GATE Question 30

    3.56
  • Lock-Btn

    Previous Year GATE Question 31

    2.45
  • Lock-Btn

    Previous Year GATE Question 32

    3.25
  • Lock-Btn

    Previous Year GATE Question 33

    5.27
  • Lock-Btn

    Previous Year GATE Question 34

    4.28
  • Lock-Btn

    Previous Year GATE Question 35

    2.27
  • Lock-Btn

    Previous Year GATE Question 36

    3.07
  • Lock-Btn

    Previous Year GATE Question 37

    4.21
  • Lock-Btn

    Previous Year GATE Question 38

    5.24
  • Lock-Btn

    Previous Year GATE Question 39

    2.02
  • Lock-Btn

    Previous Year GATE Question 40

    8.29
  • Lock-Btn

    Previous Year GATE Question 41

    4.42
  • Lock-Btn

    Previous Year GATE Question 42

    5.52
  • Lock-Btn

    Armature Reaction

    22.18
  • Lock-Btn

    Voltage Regulation

    41.46
  • Lock-Btn

    Characteristics of Alternator

    30.19
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    Short Circuit Ratio

    15.07
  • Lock-Btn

    EMF or Zs Method

    17.3
  • Lock-Btn

    MMF or Amp-turns Method

    9.49
  • Lock-Btn

    Saturated Zs Method

    8.47
  • Lock-Btn

    ZPF Method

    22.31
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    Two Reaction Theory

    9.41
  • Lock-Btn

    Slip Test

    12.56
  • Lock-Btn

    Percentage Bias Differential Protection

    7.41
  • Lock-Btn

    Differential Protection of Transformer

    4.12
  • Lock-Btn

    Differential Protection of 3-phase Transformer

    3.25
  • Lock-Btn

    Numerical-1 Based on Differential Protection

    5.36
  • Lock-Btn

    Numerical-2 Based on Differential Protection

    2.04
  • Lock-Btn

    Introduction of Load Frequency Control

    11.27
  • Lock-Btn

    Calculation of Change in Frequency

    5.37
  • Lock-Btn

    Numerical-1 Based on Change of Frequency

    2.49
  • Lock-Btn

    Sharing of Load by parallel generators

    3.04
  • Lock-Btn

    Numerical-1 Based on Sharing of Parellel Loads

    2.45
  • Lock-Btn

    Previous Year GATE Question 43

    4.5
  • Lock-Btn

    Previous Year GATE Question 44

    8.05
  • Lock-Btn

    Previous Year GATE Question 45

    12.32
  • Lock-Btn

    Previous Year GATE Question 46

    13
  • Lock-Btn

    Previous Year GATE Question 47

    3.24
  • Lock-Btn

    Previous Year GATE Question 48

    1.51
  • Lock-Btn

    Previous Year GATE Question 49

    6.54
  • Lock-Btn

    Previous Year GATE Question 50

    4.36
  • Lock-Btn

    Previous Year GATE Question 51

    9.45
  • Lock-Btn

    Previous Year GATE Question 52

    4.11
  • Lock-Btn

    Previous Year GATE Question 53

    2.06
  • Lock-Btn

    Previous Year GATE Question 54

    11.31
  • Lock-Btn

    Previous Year GATE Question 55

    8.11
  • Lock-Btn

    Previous Year GATE Question 56

    4.49
  • Lock-Btn

    Previous Year GATE Question 57

    4.24
  • Lock-Btn

    Previous Year GATE Question 58

    10
  • Lock-Btn

    Previous Year GATE Question 59

    5.13
  • Lock-Btn

    Previous Year GATE Question 60

    11.26
  • Lock-Btn

    Previous Year GATE Question 61

    2.16
  • Lock-Btn

    Previous Year GATE Question 62

    2.03
  • Lock-Btn

    Previous Year GATE Question 63

    4.44
  • Lock-Btn

    Salient Pole Alternator Power Equation

    37.51
  • Lock-Btn

    Vector Diagram of Salient Pole Alternator

    27.21
  • Lock-Btn

    Power Equation of Cylindrical Synchronous Machine

    25.42
  • Lock-Btn

    Parallel Operation

    31.21
  • Lock-Btn

    Reluctance Machine

    4.21
  • Lock-Btn

    Hunting

    23.43
  • Lock-Btn

    Introduction to Parallel Operation

    41.04
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    Introduction of HVDC

    5.15
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    Advantages of HVDC

    5.38
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    Types of HVDC

    4.56
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    Introduction of Overhead Insulator

    5.28
  • Lock-Btn

    Types of Insulator

    4.23
  • Lock-Btn

    Suspension Insulator

    7.11
  • Lock-Btn

    String Efficiency

    11.29
  • Lock-Btn

    Methods to Increase Efficiency

    9.12
  • Lock-Btn

    Numerical-1 Based on String Efficiency

    2.54
  • Lock-Btn

    Numerical-1 Based on Overhead Insulator

    1.56
  • Lock-Btn

    Previous Year GATE Question 64

    2.09
  • Lock-Btn

    Previous Year GATE Question 65

    2.25
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    Previous Year GATE Question 66

    3.18
  • Lock-Btn

    Previous Year GATE Question 67

    2.29
  • Lock-Btn

    Previous Year GATE Question 68

    5.08
  • Lock-Btn

    Previous Year GATE Question 69

    7.03
  • Lock-Btn

    Previous Year GATE Question 70

    6.34
  • Lock-Btn

    Previous Year GATE Question 71

    6.58
  • Lock-Btn

    Previous Year GATE Question 72

    5.48
  • Lock-Btn

    Previous Year GATE Question 73

    5.59
  • Lock-Btn

    Previous Year GATE Question 74

    3.09
  • Lock-Btn

    Previous Year GATE Question 75

    4.02
  • Lock-Btn

    Previous Year GATE Question 76

    21.23
  • Lock-Btn

    Previous Year GATE Question 77

    6.5
  • Lock-Btn

    Previous Year GATE Question 78

    8.58
  • Lock-Btn

    Previous Year GATE Question 79

    4.21
  • Lock-Btn

    Previous Year GATE Question 80

    7.15
  • Lock-Btn

    Previous Year GATE Question 81

    2.22
  • Lock-Btn

    Previous Year GATE Question 82

    1.42
  • Lock-Btn

    Previous Year GATE Question 83

    3.46
  • Lock-Btn

    Previous Year GATE Question 84

    5.49
  • Lock-Btn

    Previous Year GATE Question 85

    2.37
  • Lock-Btn

    Previous Year GATE Question 86

    5.24
  • Lock-Btn

    Previous Year GATE Question 87

    12.07
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    Parallel Operation of Two Alternators at Load

    22.08
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    Introduction to Synchronous Motor

    7.52
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    Simple Loop and Basic Principle

    12.29
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    Operation of Synchronous Motor

    8.36
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    Starting Methods

    20.14
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    Armature Reaction of Synchronous Motor

    19.48
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    Power Equation of Cylindrical Motor

    18.42
  • Lock-Btn

    Synchronous Motor at No-Load and Loaded

    21.05
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    Synchronous Condenser

    15.56
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    Problem on Synchronous Condenser

    10.28
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    Definitions

    8.18
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    Vector Diagram of Salient Pole Synchronous Motor

    13.33
  • Lock-Btn

    Insulated Power Cable

    4.31
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    Insulation Resistance and Capacitance

    7.59
  • Lock-Btn

    Power Loss in Cable

    7.25
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    Capacitance of 3-Core Cable

    3.55
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    Numerical-1 Based on 3 Core Cable

    2.31
  • Lock-Btn

    Previous Year GATE Question 88

    4.33
  • Lock-Btn

    Previous Year GATE Question 89

    6.22
  • Lock-Btn

    Previous Year GATE Question 90

    4.28
  • Lock-Btn

    Previous Year GATE Question 91

    5.02
  • Lock-Btn

    Previous Year GATE Question 92

    2.38
  • Lock-Btn

    Previous Year GATE Question 93

    3.38
  • Lock-Btn

    Previous Year GATE Question 94

    5.39
  • Lock-Btn

    Previous Year GATE Question 95

    7.58
  • Lock-Btn

    Previous Year GATE Question 96

    4.46
  • Lock-Btn

    Previous Year GATE Question 97

    3.23
  • Lock-Btn

    Previous Year GATE Question 98

    6.11
  • Lock-Btn

    Previous Year GATE Question 99

    6.09
  • Lock-Btn

    Previous Year GATE Question 100

    5.06
  • Lock-Btn

    Previous Year GATE Question 101

    5.35
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    Introduction of Distribution System

    5.58
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    Voltage Source Fed at One End

    7.32
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    Voltage Source Fed at Both the End

    5.26
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    Numerical-1 Based on Voltage Source Fed at Both the Ends

    4.02
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    Ring Mains

    3.02
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    Parallel Operation with Busbar at No-Load

    20.22
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    At-Load Effect of Excitation

    29.43
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    At-Load Effect of Primover

    20.1
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    Problem on Parallel Operation

    9
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    Previous Year GATE Problems - Part 1

    37.47
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    Previous Year GATE Problems - Part 2

    33.04
  • Lock-Btn

    Previous Year GATE Problems - Part 3

    39.25
  • Lock-Btn

    Previous Year GATE Problems - Part 4

    34.21
  • Lock-Btn

    Previous Year GATE Problems - Part 5

    37.33
  • Lock-Btn

    Previous Year GATE Problems - Part 6

    29.34
  • Lock-Btn

    Previous Year GATE Problems - Part 7

    30.46
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    Introduction of Generating Station

    3.09
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    Thermal Power Station

    5.19
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    Hydro Power Station

    9.16
  • Lock-Btn

    Previous Year GATE Question 102

    5.19
  • Lock-Btn

    Previous Year GATE Question 103

    12.33
  • Lock-Btn

    Previous Year GATE Question 104

    3.34
  • Lock-Btn

    Previous Year GATE Question 105

    6.14
  • Lock-Btn

    Previous Year GATE Question 106

    13.31
  • Lock-Btn

    Previous Year GATE Question 107

    2.06
  • Lock-Btn

    Previous Year GATE Question 108

    2.55
  • Lock-Btn

    Previous Year GATE Question 109

    8.47
  • Lock-Btn

    Previous Year GATE Question 110

    2.4

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