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Electricity and Magnetism: Magnetic Fields and Forces
Electricity and Magnetism: Magnetic Fields and Forces
(47 Lectures Available)
S#
Lecture
Course
Institute
Instructor
Discipline
1
L14v1: Current
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
2
L14v2: Current Density
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
3
L14v3: Ohm's Law
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
4
L14v4: Drude Model
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
5
L14v5: Resistance Demo
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
6
L15v1: Batteries
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
7
L15v2: Kirchhoff's Loop Rule
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
8
L15v3: Choosing Current Direction and Circulation Direction
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
9
L15v4: Difference in Potential across a Battery and Resistor
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
10
L15v6: Multiloop Circuits
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
11
L15v7: Resistors in Series and in Parallel
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
12
L15v9: Power in a Circuit
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
13
L16v1: Circuit with a Capacitor
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
14
L16v2: Capacitors in Parallel
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
15
L16v3: Capacitors in Series
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
16
L16v4: Charging a Capacitor
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
17
L16v5: Analytic Solution to a Charging Capacitor
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
18
L16v6: Charging Capacitor Time Constant
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
19
L17DD1: Deep Dive: Measurements to Define the Magnetic Field
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
20
L17v1a: Introduction to Magnetic Fields
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
21
L17v1b: Visualize the Magnetic Field of a Bar Magnet
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
22
L17v2: Lorentz Force Law
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
23
L17v4: Units of Magnetic Field
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
24
L17v5: Motion of a Charged Particle in a Uniform Magnetic Field
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
25
L18v1: How to Make a Magnetic Field
Electricity and Magnetism: Magnetic Fields and Forces
MIT
Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin
Basic and Health Sciences
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