Complete Electric Circuits Course For Electrical Engineering | Ahmed Mahdy | Skillshare

# Complete Electric Circuits Course For Electrical Engineering

#### Ahmed Mahdy, Electrical Power Engineer

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130 Lessons (8h 18m)
• 1. What is an Electrical Circuit

1:12
• 2. System of Units

5:20
• 3. Definition of an Electric charge

4:56
• 4. Definition of an Electric Current

4:01
• 5. Example 1

1:11
• 6. Example 2

1:45
• 7. Example 3

1:01
• 8. Definition of the Voltage

3:39
• 9. Definition of the Energy and Power

5:28
• 10. Example 4

2:41
• 11. Example 5

0:57
• 12. Dependent and Independent sources

4:17
• 13. Example 6

2:53
• 14. Introduction to Basic Laws

0:49
• 15. Definition of Resistance

3:17
• 16. Ohm's Law

1:18
• 17. Open and Short Circuit

2:11
• 18. Fixed and Variable Resistance

1:06
• 19. Linear and Non Linear Resistor

0:58
• 20. Meaning of Conductance

1:41
• 21. Example 1

0:22
• 22. Example 2

1:15
• 23. Example 3

0:46
• 24. Branch,Node and Loops

4:38
• 25. Series and Parallel Connection

0:56
• 26. KCL

2:24
• 27. KVL

1:56
• 28. Example 4

2:05
• 29. Example 5

0:56
• 30. Example 6

1:57
• 31. Series Resistors and Voltage Divison

3:45
• 32. Parallel Resistors and Current Division

4:13
• 33. Analogy between Resistance and Conductance

4:39
• 34. Example 7

2:04
• 35. Example 8

3:13
• 36. Introduction to Delta Wye Transformation

3:11
• 37. Delta to Wye Transformation

4:48
• 38. Wye to Delta Transformation

3:24
• 39. Example 9

6:59
• 40. Example 10

4:01
• 41. Application Lightning bulbs

3:54
• 42. Example 11

2:48
• 43. Introduction to Methods of Analysis

0:58
• 44. Nodal Analysis With No Voltage Source

8:53
• 45. Example 1

4:26
• 46. Cramer's Method

4:05
• 47. Nodal Analysis with Voltage source and Super Node

4:33
• 48. Example 2

3:08
• 49. Example 3

4:44
• 50. Mesh Analysis

3:30
• 51. Example 4

2:07
• 52. Example 5

1:50
• 53. Example 6

4:22
• 54. Mesh Analysis with Current Source and SuperMesh

3:07
• 55. Example 7

3:28
• 56. Nodal Analysis by Inspection

5:24
• 57. Example 8

3:13
• 58. Example 9

6:59
• 59. Example 10

4:01
• 60. Nodal Vs Mesh Analysis

2:17
• 61. Application DC Transistor Circuits

12:52
• 62. Example 11

2:48
• 63. Introduction to Circuit theorems

2:02
• 64. Linearity of Circuit

7:25
• 65. Example 1

3:49
• 66. Superpostion Theorem

7:02
• 67. Example 2

4:20
• 68. Example 3

5:56
• 69. Source Transformation

7:37
• 70. Example 4

5:05
• 71. Example 5

3:03
• 72. Thevenin Theorem

9:44
• 73. Example 6

6:04
• 74. Example 7

4:57
• 75. Norton's Theorem

5:19
• 76. Example 8

3:29
• 77. Example 9

5:00
• 78. Maximum Power Transfer

4:51
• 79. Example 10

2:57
• 80. Summary

4:43
• 81. Resistance Measurement

4:56
• 82. Example 11

0:26
• 83. Example 12

3:57
• 84. Introduction To Operational Ampilifers

3:28
• 85. Construction of Operational Amplifiers

7:09
• 86. Equivalent Circuit of non Ideal Op Amp

9:42
• 87. Vo Vs Vd Relation Curve

3:30
• 88. Example 1

9:16
• 89. Ideal Op Amp

7:05
• 90. Example 2

4:15
• 91. Inverting Amplifier

5:23
• 92. Example 3

1:51
• 93. Example 4

2:01
• 94. Non Inverting Amplifier

7:58
• 95. Example 5

3:17
• 96. Summing Amplifier

4:40
• 97. Example 6

2:17
• 98. Difference amplifier

5:34
• 99. Example 7

7:33
• 100. Cascaded Op Amp Circuits

6:27
• 101. Example 8

4:10
• 102. Summary

4:28
• 103. Introduction to Capacitors and Inductors

2:27
• 104. Capacitor

6:28
• 105. Capacitance

2:24
• 106. Voltage Current Relation in Capacitor

3:17
• 107. Energy Stored in Capacitor

6:20
• 108. DC Voltage and Practical capacitor

1:55
• 109. Example 1

0:42
• 110. Example 2

1:06
• 111. Example 3

4:51
• 112. Equivalent Capacitance of Parallel capacitors

2:26
• 113. Equivalent Capacitance of Series capacitors

2:58
• 114. Example 4

1:55
• 115. Definition of Inductors

5:52
• 116. Definition of Inductance

3:01
• 117. Voltage Current Relation in Inductor

3:00
• 118. Power and Energy stored in Inductor

2:24
• 119. DC Source and Inductor

3:45
• 120. Example 5

2:06
• 121. Series Inductors

3:11
• 122. Parallel Inductors

3:33
• 123. Small Summary to 3 Basic Elements

2:24
• 124. Example 6

1:10
• 125. Example 7

4:48
• 126. Summary

4:51
• 127. Application Integrator

4:47
• 128. Example 8

3:24
• 129. Application Differentiator

2:26
• 130. Example 9

6:03
18 students are watching this class

Welcome To my Own course "Fundamentals of Electrical Engineering Circuits" ,

This course is designed for Absolute Beginners who has Zero Knowledge about Electric Circuits , i start from Zero until you understand all the Fundamentals with Hundreds of Examples !!

This also for Students who wants to Refresh their Knowledge !

So what are we going to learn from this course ?

• know all the Fundamentals of Electric DC Circuits

• know the meaning of SI units or International Units

• Know the Definition of the Electric Charge

• Know the Definition of the Electric Current

• Know the Definition of the Electric Voltage

• Know the Definition of the Electric Power

• Know the Definition of the Electric Energy

• Know the difference between dependent and independent Sources

• Applications of DC Circuits

• Know the principle of TV Picture Tube or CRT

• Know about the electricity Bills Calculations

• Know the Basic laws of Electricity

• Understand Ohm's law

• Difference between an Open Circuit and Short Circuit

• Difference between Fixed and Variable Resistance

• Definition of Conductance

• Know Difference between Series and Parallel connection

• Know the Definition of the Nodes, Branches and loops in Electric circuit

• Know the Definition of the Kirchhoff's laws

• Know the Definition of Kirchhoff Current Law

• Know the Definition of Kirchhoff Voltage Law

• Know Series resistor and voltage division

• Know parallel resistor and current division

• Know Wye-Delta Transformations and Vice-versa

• Understand Applications as Lightning Systems

• Understand Nodal analysis No Voltage source

• Understand Nodal analysis with voltage Sources

• Understand the Supernode

• Understand Mesh analysis No Current Source

• Understand Mesh analysis with Current Sources

• Understand Mesh analysis and Nodal Analysis by Inspection

• Understand the Supermesh.

• Compare between Nodal and Mesh analysis

• Understand Applications as DC Transistor Circuits

• Understand the Meaning of the Linearity Property

• Use the Superposition Theorem

• Understand Thevenin's Theorem

• Understand Norton's Theorem

• Maximum Power Transfer

• Understand the Source Transformation

• Understand Application as Resistance Measurement

• Understand the Various types of operational Amplifiers

• Understand Ideal Op Amp,Inverting Amplifier , Non Inverting Amplifier

• Understand Summing Op Amp Circuit

• Understand Difference Op Amp Circuit

• Understand Cascaded Op Amp Circuit

• Know the applications of Op Amp like Digital-to-Analog Converter

• Know the applications of Op Amp like Instrumentation Amplifiers

• Know what is a capacitor

• Understand how to Simplify Series Capacitors

• Understand how to Simplify Parallel Capacitors

• Know what is an Inductor

• Understand Practical Capacitors and Practical Inductors

• Understand how to Simplify Series Inductors

• Understand how to Simplify Parallel Inductors

• Know how to get energy stored in Capacitor

• Know how to get energy stored in Inductor

• know the applications of Capacitors and Inductor as Integrator

• know the applications of Capacitors and Inductor as Differentiator.

Some of My students Reviews

Sally Davy

Rating: 5.0 out of 5

"This instructor made the course really easy , i was having a lot of concern about joining the course ,but now it deserves every dollar i paid ."

John Bill

Rating: 5.0 out of 5

"Very Clear and Straight forward course , the instructor explained very well and smoothly"

Shammi

Rating: 5.0 out of 5

"Even though he has an ascent, but I am able to comprehend. I am now doing basic circuit electrical and he has all the topic that is good enough to understand the foundation especially on calculations."