Difference between revisions of "Electrodynamics"
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| + | == Introduction == | ||
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| + | Electrodynamics is the greatest success in Physics. Starting from simple experiments, we were able to derive laws of nature that apply to all modern realms. | ||
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| + | The math behind Electrodynamics is intermediate. Through studying Electrodynamics, you will master vectors and tensors, multivariable calculus and many interesting approaches to solving common problems. | ||
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| + | Studying Electrodynamics introduces us to the concept of the field, and for the first time, we see that what is unseen is far more important than what is seen. Simply by examining the unseen fields around us, we can predict and understand nature. | ||
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== Textbooks == | == Textbooks == | ||
* [[Introduction to Electrodynamics]] by Griffiths | * [[Introduction to Electrodynamics]] by Griffiths | ||
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| + | == Misc == | ||
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| + | * [[Electrodynamics Tutorial Series]] | ||
[[Category:Electrodynamics]] | [[Category:Electrodynamics]] | ||
Latest revision as of 20:44, 23 August 2012
Introduction
Electrodynamics is the greatest success in Physics. Starting from simple experiments, we were able to derive laws of nature that apply to all modern realms.
The math behind Electrodynamics is intermediate. Through studying Electrodynamics, you will master vectors and tensors, multivariable calculus and many interesting approaches to solving common problems.
Studying Electrodynamics introduces us to the concept of the field, and for the first time, we see that what is unseen is far more important than what is seen. Simply by examining the unseen fields around us, we can predict and understand nature.
Textbooks
- Introduction to Electrodynamics by Griffiths
