Courses tagged with "Design.htm%25252525253Fdatetype%25252525253Dupcoming&.htm%252525253Fcategoryid%252525253D10.htm%2525" (4)

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Starts : 2013-02-18
49 votes
edX Free Closed [?] Physical Sciences Accessible Websites Business Calculus I Design.htm%25252525253Fdatetype%25252525253Dupcoming&.htm%252525253Fcategoryid%252525253D10.htm%2525 Nutrition Undergraduate.htm%2525252525253Fstart%2525252525253D1400&limit%2525252525253D20.htm%25252525253Fsort

8.02x (Electricity and Magnetism) presents the basic concepts of Electromagnetism, and how this touches upon a vast variety of interesting real-world topics.

3 votes
Saylor.org Free Closed [?] Physical Sciences Accessible Websites Calculus I Design.htm%25252525253Fdatetype%25252525253Dupcoming&.htm%252525253Fcategoryid%252525253D10.htm%2525 Nutrition Taking derivatives Undergraduate.htm%2525252525253Fstart%2525252525253D1400&limit%2525252525253D20.htm%25252525253Fsort

The physics of the universe appears to be dominated by the effects of four fundamental forces: gravity, electromagnetism, weak nuclear forces, and strong nuclear forces.  These forces control how matter, energy, space, and time interact to produce our physical world.  All other forces, such as the force you exert in standing up, are ultimately derived from these fundamental forces. We have direct daily experience with two of these forces: gravity and electromagnetism.  Consider, for example, the everyday sight of a person sitting on a chair.  The force holding the person on the chair is gravitational, and that gravitational force balances with material forces that “push up” to keep the individual in place.  These forces are the direct result of electromagnetic forces on the nanoscale.  On a larger stage, gravity holds the celestial bodies in their orbits, while we see the universe by the electromagnetic radiation (light, for example) with which it is filled.  The electromagnetic force also makes…

317 votes
Khan Academy Free Popular Closed [?] Mathematics Accessible Websites Calculus I Class2Go Design.htm%25252525253Fdatetype%25252525253Dupcoming&.htm%252525253Fcategoryid%252525253D10.htm%2525 Undergraduate.htm%2525252525253Fstart%2525252525253D1400&limit%2525252525253D20.htm%25252525253Fsort

Electrostatics (part 1): Introduction to Charge and Coulomb's Law. Electrostatics (part 2). Proof (Advanced): Field from infinite plate (part 1). Proof (Advanced): Field from infinite plate (part 2). Electric Potential Energy. Electric Potential Energy (part 2-- involves calculus). Voltage. Capacitance. Circuits (part 1). Circuits (part 2). Circuits (part 3). Circuits (part 4). Cross product 1. Cross Product 2. Cross Product and Torque. Introduction to Magnetism. Magnetism 2. Magnetism 3. Magnetism 4. Magnetism 5. Magnetism 6: Magnetic field due to current. Magnetism 7. Magnetism 8. Magnetism 9: Electric Motors. Magnetism 10: Electric Motors. Magnetism 11: Electric Motors. Magnetism 12: Induced Current in a Wire. The dot product. Dot vs. Cross Product. Calculating dot and cross products with unit vector notation. Electrostatics (part 1): Introduction to Charge and Coulomb's Law. Electrostatics (part 2). Proof (Advanced): Field from infinite plate (part 1). Proof (Advanced): Field from infinite plate (part 2). Electric Potential Energy. Electric Potential Energy (part 2-- involves calculus). Voltage. Capacitance. Circuits (part 1). Circuits (part 2). Circuits (part 3). Circuits (part 4). Cross product 1. Cross Product 2. Cross Product and Torque. Introduction to Magnetism. Magnetism 2. Magnetism 3. Magnetism 4. Magnetism 5. Magnetism 6: Magnetic field due to current. Magnetism 7. Magnetism 8. Magnetism 9: Electric Motors. Magnetism 10: Electric Motors. Magnetism 11: Electric Motors. Magnetism 12: Induced Current in a Wire. The dot product. Dot vs. Cross Product. Calculating dot and cross products with unit vector notation.

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