10:27
(Ch-1) Q 1.1, 1.2, 1.3, & 1.4 || Calculate, Speed, Torque, Angular Acceleration, Power
Electrical Engineering Academy
14:04
(Ch1) Introduction to Magnetic Circuit || Flux Density || Field Intensity
12:06
(Ch1) Calculate Core Mean Path Length || Area of Cross-Section ||Increased Area due to Fringing
9:34
(Ch1) || Mistakes in Calculating Core Mean Path Length || Magnetic Circuits
8:30
(Ch-1)Example 1.1 || The Magnetic Circuits || How much Flux is Produced || (Chapman) ||(English)
23:51
(Ch-1) Magnetic Circuit with Two windings and an Air Gap || Q1 & Q 2 ||
3:53
(Ch-1) Why multiply by 1.05, Increase in Area || Q 1.2 (Chapman)
11:26
(Ch-1) Example 1.2 || Calculating Total Reluctance || Magnetic Circuit || (Chapman)
9:41
(Ch-1) Ex 1.3 || Magnetic Circuit with Air Gap || Rotor & Stator of DC Motor (Error:See description)
10:03
(Ch-1) Magnetic Circuit || End Ch Q 1.5 || Core length, Area, Reluctance, Flux Density || (Chapman)
12:23
(Ch-1) Question Q 1.6 || Magnetic Circuits || Core with Two Air Gaps || (Chapman)
21:32
Magnetic Circuits with Two Windings || Q 1.7(Chapman) || Example 1.6 (Fitzgerald)
14:40
Question 1.8 (Chapman) || Core with Three Legs || Magnetic Circuits || Fringing Effect
15:36
Magnetic Circuits || Core with Three Legs || End Ch Q 1.13 (Chapman)
11:54
Magnetic Circuits || Problem 1.14 ||Two-Legged Magnetic Core with Air Gap || EM 1.4 (E)
15:11
Magnetic Circuits: Core having Three Different Diameters (Cast Iron) Example 6.27 (Theraja)-
7:35
Example 1.6 || Induced Voltage ||Time Changing Magnetic Field || (Chapman)
22:56
Example 1.10 || Linear DC Machine || Calculate Maximum Starting Current || (Chapman)
10:12
Linear DC Machine || End Ch Q 1.21 (Chapman)
19:51
Example 2.1 || The Ideal Transformer || Transmission Line Losses || Impedance Transformation
12:15
Example 2.2 || Equivalent Circuit of a Transformer || Refer to Pri & Secy sides || Open - Short Test
15:22
End Ch Q 2.6 || Transformer Equivalent Circuit || Voltage Regulation || (Chapman) (English)
20:12
Example 2.3 & 2.4 || Transformer Per Unit System of Measurement || PU
31:25
(Ch-2)Example 2.5 || Transformer Voltage Regulation || Phasor Diagram |(Electrical Machines-Chapman)
9:26
Example 2.6 || Transformer Taps & Voltage Regulation || (Chapman)(English)
15:56
(Ch-2) Transformer Efficiency Calculation || Meaning of Transformer Rating ||Example 4.3( Bhag Guru)
11:56
(Ch-2) || Three-Phase Transformer Basics for Solving Questions || (Chapman)
14:00
Example 2.9 || Three-Phase Transformers || Impedance Calculation || Voltage Regulation in PU
14:13
Q 2.11|| Three Phase Power Transformer in Per Unit || Delta-Wye || || (EM 5th ed- Chapman)
21:40
End Ch Q 2.11 (New) || 3-Phase Delta-Wye Transformer || Voltage Regulation || Efficiency || Chapman)
14:37
Delta-Delta Connection of Three Phase Transformer || Voltage Regulation || Assignment ||(Chapman)
23:34
End Ch Q 2.24 || Per Phase Impedance in Per Unit || Single line diagram of transmission System
16:28
(Ch 2.9) || Autotransformer || Step-up and Step-down || Power Rating Advantages || Ex 3.5 (Saadat)
7:12
Example 2.7 || Auto-transformer || Rating Advantage of Auto-transformer || (Chapman)(English)
3:01
Example 2.8 || Autotransformer ||Internal Impedance of an Autotransformer || (Chapman)
11:01
End Ch Q 2.9 || Open Y-Open Delta || Three Phase Transformation using Two Transformers ||(Chapman)
16:04
Example 3.1 || Half-Wave Rectifier || Ripple Factor || Percentage Ripple || (Chapman)
7:49
Ch-3 (5ed) Q 3.1 || Rotating Loop || Uniform Magnetic Field || AC Machinery || (Chapman)
6:25
(Ch-3)(5ed) Example 3.2 || Induced Voltage in AC Machine || Simple Two-Pole Generator || (Chapman)
13:28
Ex 4.5 (5ed) || Synchronous Generator with Changing Load || (Chapman)
12:50
Example 4.6(5ed) || Two Generators Supplying One Load || EM (Chapman)
16:32
(Ch-4)(5 ed)Synchronous Generators || Understanding Synchronous Generators || Example 4.1 ||
15:21
(Ch-5)(5 ed) Example 4.2 || Synchronous Generator || Effect of Load Changes(Chapman )
4:46
How was this simplified ? Ex 5.2 (c) (4th ed) || Ex 4.2(c)(5th ed) || (Chapman)
24:20
Synchronous Generator || Example 5.3 || EM 5.8(2)(English)(Chapman)
22:41
Synchronous Generator || End Chapter Problem 5.2 || With Calculator in CMPLX Mode || EM 5.7(1)(New)
20:31
Synchronous Generators || Y-Connected || EMF || Capability Curve || End Ch Problem 5.2 || EM 5.7(2)
19:09
Synchronous Generator || End Ch Question 5.3 || Phasor Diagram, efficiency || EM 5.7(1a)(Chapman)
17:20
(Ch-5)(5 ed) Synchronous Motors || Example 5.1 (6.1, 4ed) || Phasor Diagram (Chapman)
19:53
Example 6.2 (Chapman) || Synchronous Motors || Equivalent Circuit || Phasor Diagram || (English)
9:30
Synchronous Motors || End Ch Question 6.1 || EM 6.1(English)(Chapman)
18:41
Question 6.2 || Synchronous Motors || six-pole, delta connected synchronous motor
13:56
Ex 7.1 || Difference between Synchronous & Induction Motor || Induction Motor || || EM 7.1(1)(E)
8:49
Induction Motor || End Ch Q 7.2 || Synch Speed || Rotor Speed || Slip || Rotor Frequency || EM 7.2
7:14
3-Phase Induction Motor ||Example 7.2 || Power Flow Diagram || EM 7.4(1)(English)(Chapman)
Example 7.3: The Ultimate Guide to Induction Motor's Equivalent Circuit
15:27
Induction Motor || Derivation of Induced Torque Eq by Thevenin's Theorem || EM7.5(1)(E)(Chap)
5:32
Induction Motor || Example 7.4 || EM 7.5 (English)(Chapman)
11:49
Induction Motor || Slip, Power, Torque || Example 7.5 (Book Method) || EM 7.5(2)(E) (Chapman)
13:43
Induction motor || Slip, Power, Torque || Example 7.5 (Simplified Method) ||EM 7.5(2)(E) (Chapman)
4:20
DC Test of Induction Motor || End Ch Problem 7.1 || Chapman || EM 7.1 (English)
Induction Motor || Power|| Torque|| Speed|| Losses|| Efficiency|| End Ch Problem 7.7||EM 7.3 (E)
6:08
Voltage Induced in a Rotating Loop || End Chapter Problem 8.1 || EM 8.1 (English)(Chapman)
12:41
(Ch-8)(5 ed) || Introduction to DC Motors || Application,|Types, Equivalent Circuit,Speed Regulation
12:17
Series DC Motors || EM End Ch Q 8.13 from 5th ed (Q9.13 4th ed)(English)(Chapman)
15:31
(Ch-8)(5ed) || Example 8.5 || Series DC Motor || || Calculating the speed and induced torque
12:48
(Ch-8)(5 ed)|| Series DC Motor with Diverter || Q3a (Assignment Question) ||
15:17
(Ch-8)(5ed) || DC Shunt Motor || Example 8.1 ||
8:36
EM Confusion about Left Hand Rule & Right Hand Rule
13:21
(Ch-8)(5 ed) || Example 8.2 || Shunt DC Motor without Compensating Windings ||
21:20
(Ch-8)(5 ed) Example 8.6 || Compounded DC Motor with Compensating Windings (Chapman)
8:47
Question 8.22( 5th ed) || Separately Excited DC Generator || EM End Ch 9.22(4th ed) (English)
4:16
Basic Difference between Synchronous Motor and Induction Motor || EM 6.1 (Chapman 5 ed)
9:14
Induction Motor || End Ch Question 6.3 (5th ed) || Question 7.3 (4th ed) || (Chapman)
19:27
Capability Curve || Simple Explanation ||Synchronous Generator || Example 5.8(a)(Chapman)(English)
12:20
Synchronous Motors || Example 6.3 (Chapman) (English)
1:39
Power Factor: Leading or Lagging? Understand the Difference
21:38
Example 8.7-Designing Starter Circuit for DC Shunt Motor || Electrical Machines-Chapman (English)
20:15
DC Shunt Generator || Critical Resistance ||Example 2.1 of Exercise 8.17 (Settar) ||EM 8.13(English)
21:55
Separately Excited DC Generator || Solved Example 1, Exercise 8.17(1) || EM 8 (Settar)(English)
12:22
Worst Voltage Regulation || Maximum Voltage Regulation|| Zero Voltage Regulation ||Assignment Canada
12:45
3-Phase Transformer Delta-Delta Connection || Voltage Regulation || Assignment Question ||(Chapman)
12:44
8:19
(Ch-8)(5ed) Example 8.4 || Separately Exited DC Motor || Find Speed When Terminal Voltage is Reduced
13:17
How to Plot Transformer Phasor Diagram || How to Obtain Approximate Equation for Primary Voltage
4:47
Magnetic Circuit Example 1.6 (Fitzgerald) || Inductance, Magnetic Stored Energy, Induced Voltage