Course Curriculum
- 7 sections
- 135 lectures
- 00:00:00 total length
-
Module 1- What Is an Electric Circuit
00:02:00 -
Module 2-System of Units
00:07:00 -
Module 3- What Is an Electric Charge
00:05:00 -
Module 4- What Is an Electric Current
00:08:00 -
Module 5-Example 1
00:09:00 -
Module 6- Example 2
00:02:00 -
Module 7- Example 3
00:13:00 -
Module 8- What Is Voltage
00:07:00 -
Module 9- What Is Power
00:06:00 -
Module 10- What Is Energy
00:04:00 -
Module 11- Example 4
00:03:00 -
Module 12- Example 5
00:02:00 -
Module 13- Dependent and Independent Sources
00:05:00 -
Module 14- Example 6 Part 1
00:04:00 -
Module 15- Example 6 Part 2
00:01:00 -
Module 16- Application 1 Cathode Ray Tube
00:04:00 -
Module 17-Example 7
00:04:00 -
Module 18- Application 2 Electricity Bills
00:02:00 -
Module 19- Example 8
00:03:00
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Module 1- Introduction to Basic Laws
00:01:00 -
Module 2- Definition of Resistance
00:06:00 -
Module 3- Ohm’s Law
00:02:00 -
Module 4- Types of Resistances
00:06:00 -
Module 5- Open and Short Circuit
00:05:00 -
Module 6- Definition of Conductance
00:04:00 -
Module 7-Example 1
00:01:00 -
Module 8-Example 2
00:01:00 -
Module 9- Example 3
00:03:00 -
Module 10- Branch, Node and Loops
00:07:00 -
Module 11- Series and Parallel Connection
00:04:00 -
Module 12- KCL
00:04:00 -
Module 13- KVL
00:03:00 -
Module 14- Example 4
00:05:00 -
Module 15- Example 5
00:02:00 -
Module 16- Example 6
00:06:00 -
Module 17- Series Resistors and Voltage Division
00:07:00 -
Module 18-Parallel Resistors and Current Division
00:12:00 -
Module 19- Analogy between Resistance and Conductance
00:07:00 -
Module 20-Example 7
00:03:00 -
Module 21-Example 8
00:04:00 -
Module 22- Introduction to Delta-Wye Connection
00:06:00 -
Module 23-Delta to Wye Transformation
00:05:00 -
Module 24- Wye to Delta Transformation
00:07:00 -
Module 25-Example 9
00:03:00 -
Module 26- Example 10
00:15:00 -
Module 27- Application Lighting Bulbs
00:03:00 -
Module 28-Example 11
00:05:00
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Module 1- Introduction to Methods of Analysis
00:02:00 -
Module 2- Nodal Analysis with No Voltage Source
00:15:00 -
Module 3-Example 1
00:04:00 -
Module 4-Cramer’s Method
00:04:00 -
Module 5-Nodal Analysis with Voltage Source
00:07:00 -
Module 6- Example 2
00:02:00 -
Module 7- Example 3
00:13:00 -
Module 8-Mesh Analysis with No Current Source
00:10:00 -
Module 9-Example 4
00:04:00 -
Module 10- Example 5
00:06:00 -
Module 11-Mesh Analysis with Current Source
00:07:00 -
Module 12-Example 6
00:08:00 -
Module 13-Nodal Vs Mesh Analysis
00:04:00 -
Module 14-Application DC Transistor
00:04:00 -
Module 15-Example 7
00:04:00
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Module 1-Introduction to Circuit theorems
00:02:00 -
Module 2-Linearity of Circuit
00:07:00 -
Module 3-Example 1
00:04:00 -
Module 4-Superposition Theorem
00:07:00 -
Module 5- Example 2
00:04:00 -
Module 6-Example 3
00:06:00 -
Module 7-Source Transformation
00:08:00 -
Module 8-Example 4
00:05:00 -
Module 9-Example 5
00:03:00 -
Module 10-Thevenin Theorem
00:10:00 -
Module 11-Example 6
00:06:00 -
Module 12-Example 7
00:05:00 -
Module 13- Norton’s Theorem
00:05:00 -
Module 14-Example 8
00:04:00 -
Module 15-Example 9
00:05:00 -
Module 16-Maximum Power Transfer
00:05:00 -
Module 17-Example 10
00:03:00 -
Module 18-Resistance Measurement
00:05:00 -
Module 19-Example 11
00:01:00 -
Module 20-Example 12
00:04:00 -
Module 21-Summary
00:05:00
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Module 1-Introduction to Operational Amplifiers
00:03:00 -
Module 2-Construction of Operational Amplifiers
00:07:00 -
Module 3-Equivalent Circuit of non Ideal Op Amp
00:10:00 -
Module 4-Vo Vs Vd Relation Curve
00:04:00 -
Module 5-Example 1
00:09:00 -
Module 6-Ideal Op Amp
00:07:00 -
Module 7- Example 2
00:04:00 -
Module 8-Inverting Amplifier
00:05:00 -
Module 9-Example 3
00:02:00 -
Module 10-Example 4
00:02:00 -
Module 11-Non Inverting Amplifier
00:08:00 -
Module 12-Example 5
00:03:00 -
Module 13-Summing Amplifier
00:05:00 -
Module 14-Example 6
00:02:00 -
Module 15-Difference amplifier
00:06:00 -
Module 16-Example 7
00:08:00 -
Module 17-Cascaded Op Amp Circuits
00:06:00 -
Module 18-Example 8
00:04:00 -
Module 19-Application Digital to Analog Converter
00:06:00 -
Module 20-Example 9
00:04:00 -
Module 21-Instrumentation Amplifiers
00:05:00 -
Module 22-Example 10
00:01:00 -
Module 23-Summary
00:04:00
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Module 1-Introduction to Capacitors and Inductors
00:02:00 -
Module 2-Capacitor
00:06:00 -
Module 3-Capacitance
00:02:00 -
Module 4-Voltage-Current Relation in Capacitor
00:03:00 -
Module 5-Energy Stored in Capacitor
00:06:00 -
Module 6-DC Voltage and Practical Capacitor
00:02:00 -
Module 7-Example 1
00:01:00 -
Module 8-Example 2
00:01:00 -
Module 9-Example 3
00:02:00 -
Module 10-Equivalent Capacitance of Parallel Capacitors
00:02:00 -
Module 11-Equivalent Capacitance of Series Capacitors
00:03:00 -
Module 12-Example 4
00:02:00 -
Module 13-Definition of Inductors
00:06:00 -
Module 14-Definition of Inductance
00:03:00 -
Module 15-Voltage-Current Relation in Inductor
00:03:00 -
Module 16-Power and Energy Stored in Inductor
00:02:00 -
Module 17-DC Source and Inductor
00:04:00 -
Module 18-Example 5
00:02:00 -
Module 19-Series Inductors
00:03:00 -
Module 20-Parallel Inductors
00:04:00 -
Module 21-Example 6
00:01:00 -
Module 22-Small Summary to 3 Basic Elements
00:02:00 -
Module 23-Example 7
00:05:00 -
Module 24-Application Integrator
00:05:00 -
Module 25-Example 8
00:03:00 -
Module 26-Application Differentiator
00:02:00 -
Module 27-Example 9
00:06:00 -
Module 28-Summary
00:05:00
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Assignment – Reporting and Data
00:00:00