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Electricity and Magnetism: Magnetic Fields and Forces

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	L18v2: Magnetic Field of a Moving Point Charge	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	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
11	L18v3: Biot-Savart Equation	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	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
13	L18v4: Using Biot-Savart to Find the Magnetic Field at the Center of a Ring	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	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
15	L18v6: Force on a Wire in 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
16	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
17	L19v1: Magnetic Monopoles	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	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
19	L19v2: First Two Maxwell's Equations	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	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
21	L19v3: Magnetic Dipole Moment	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	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
23	L19v4: Understanding Magnetic Attraction and Repulsion Through Field Lines	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	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
25	L20v1: Torque on a Compass Needle	Electricity and Magnetism: Magnetic Fields and Forces	MIT	Peter Dourmashkin, Krishna Rajagopal, Kerstin Perez, Analia Barrantes, Michelle Tomasik, Robert Redwin	Basic and Health Sciences

Electricity and Magnetism: Magnetic Fields and Forces

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