Electromagnetic Fields & Energy, Textbook Components w Video
5.0
(1)
23 learners
What you'll learn
This course includes
- 6.3 hours of video
- Certificate of completion
- Access on mobile and TV
Course content
1 modules • 49 lessons • 6.3 hours of video
Electromagnetic Fields & Energy, Textbook Components w Video
49 lessons
• 6.3 hours
Electromagnetic Fields & Energy, Textbook Components w Video
49 lessons
• 6.3 hours
- Chapters 1.3.1, 1.5.1 (demo only): Coulomb's Force Law and Measurements of Charge04:10
- Chapters 1.3.1, 1.5.1: Coulomb's Force Law and Measurements of Charge12:39
- Chapter 1.4.1 (demo only): Magnetic Field of a Line Current02:48
- Chapter 1.4.1: Magnetic Field of a Line Current06:49
- Chapter 1.6.1 (demo only): Voltmeter Reading Induced by Magnetic Induction02:43
- Chapter 1.6.1: Voltmeter reading induced by magnetic induction07:18
- Chapter 4.7.1 (demo only): Charge Induced in Ground Plane by Overhead Conductor03:38
- Chapter 4.7.1: Charge induced in ground plane by overhead conductor09:05
- Chapter 5.5.1 (demo only): Capacitance Attenuator07:34
- Chapter 5.5.1: Capacitance attenuator12:11
- Chapter 6.6.1 (demo only): An Artificial Dielectric06:17
- Chapter 6.6.1: An artificial dielectric11:34
- Chapter 7.5.1 (demo only): Distribution of Unpaired Charge02:14
- Chapter 7.5.1: Distribution of unpaired charge05:04
- Chapter 7.5.2 (demo only): Rotation of an Insulating Rod in a Steady Current04:46
- Chapter 7.5.2: Rotation of an insulating rod in a steady current05:57
- Chapter 7.7.1 (demo only): Relaxation of Charge on Particle in Ohmic Conductor; Van de Graaff09:58
- Chapter 7.7.1: Relaxation of charge on particle in Ohmic conductor06:22
- Chapter 7.7.1: Supplement: Van de Graaff and Kelvin generators07:18
- Chapter 7.7.2 (demo only): Electrostatic Precipitation06:06
- Chapter 7.7.2: Electrostatic precipitation20:05
- Chapter 8.2.1 (demo only): Field of a Circular Cylindrical Solenoid04:29
- Chapter 8.2.1: Field of a circular cylindrical solenoid07:39
- Chapter 8.2.2 (demo only): Field of Square Pair of Coils04:12
- Chapter 8.2.2: Field of square pair of coils09:42
- Chapter 8.4.1 (demo only): Surface Used to Define the Flux Linkage04:17
- Chapter 8.4.1: Surface used to define the flux linkage09:17
- Chapter 8.5.1 (demo only): Field and Inductance of a Spherical Coil04:46
- Chapter 8.5.1: Field and inductance of a spherical coil08:34
- Chapter 8.6.1 (demo only): Surface Currents Induced in Ground Plane by Overhead Conductor05:13
- Chapter 8.6.1: Surface currents induced in ground plane by overhead conductor09:48
- Chapter 8.6.2 (demo only): Inductive Attenuator05:18
- Chapter 8.6.2: Inductive attenuator16:37
- Chapter 9.4.1 (demo only): Measurement of B-H Characteristic03:01
- Chapter 9.4.1: Measurement of B-H characteristic08:28
- Chapter 10.0.1 (demo only): Non Uniqueness of Voltage in an Magnetoquasistatic System03:04
- Chapter 10.0.1: Non Uniqueness of Voltage in a Magnetoquasistatic System07:31
- Chapter 10.2.1 (demo only): Edgerton's Boomer09:38
- Chapter 10.2.1: Edgerton's boomer27:26
- Chapter 10.4.1 (demo only): Currents Induced in a Conducting Shell03:48
- Chapter 10.4.1: Currents induced in a conducting shell07:38
- Chapter 10.7.1 (demo only): Skin Effect07:13
- Chapter 10.7.1: Skin effect11:35
- Chapter 11.6.2 (demo only): Force on a Liquid Dielectric01:21
- Chapter 11.6.2: Force on a liquid dielectric09:25
- Chapter 11.7.1 (demo only): Steady State Magnetic Levitation08:12
- Chapter 11.7.1: Steady state magnetic levitation16:53
- Chapter 13.1.1 (demo only): Visualization of Standing Waves07:34
- Chapter 13.1.1: Visualization of standing waves11:24
