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A brief outline. This post provides an overview of the fundamentals of classical mechanics, including concepts such as conservation laws, motion in one dimension, oscillations, and rotational motion. Along with the theoretical descriptions, there are plenty of worked-through examples to show how these principles can be applied to solve problems involving masses on strings or pendulums. The post concludes with a few tips for success in mastering this material. Introduction: Why is understanding Classical Mechanics important? What is Classical Mechanics? What does it study? Why should I learn it? Who invented it? How does it compare to other forms of mechanics like Nuclear physics and Quantum physics? Which books should I use to learn it? References. Post History: This post was originally published on 12/12/12, and has been heavily revised (and expanded) on 12/26/14. - Introduction: Why is understanding Classical Mechanics important? What is Classical Mechanics? What does it study? How does it fit in with other topics? Which books should I use to learn it? References. - Introduction: Why is understanding Quantum mechanics important? What is Quantum mechanics? What does it study? How does it fit in with other topics? Which books should I use to learn it? References. - Introduction: Why is understanding Electromagnetism important? What is Electromagnetism? What does it study? How does it fit in with other topics? Which books should I use to learn it? References. I am currently enrolled in the physics graduate program at MIT, where I study particle physics. As part of my advanced study, I have learned advanced quantum mechanics and electromagnetism, and will be learning more about them as time goes on. These two topics are extremely important to my research, but they are dense and difficult because they rely on a great deal of background knowledge that needs to be built up before one can really do anything interesting. In order to get a solid grip on any of these topics, it is absolutely necessary to have a good understanding of the basics of classical mechanics. Classical mechanics includes the study of forces and motion in one dimension at rest, and also includes the study of forces and motion in two dimensions. It is one possible branch of classical mechanics that does not include any special relativity or quantum aspects. The equations that describe these situations are very similar, with just a bit more work being required to obtain them from each other. This means that a solid background in classical mechanics gives an excellent foundation for learning these topics, both quantum and electromagnetic physics. The link between this class and Classical Mechanics: http://en.wikipedia. org/wiki/Comparison_of_classical_mechanics_with_quantum_mechanics The link between this class and Electromagnetism: http://en.wikipedia.org/wiki/Comparison_of_classical_mechanics_with_quantum_mechanics This post serves as an outline of the classical mechanics course that I take at MIT, which is taught by Prof. Walter Lewin, whom you may know from his YouTube lectures. This class is particularly important because it gives students a solid background in mechanics, which can be applied to quantum physics or electrodynamics later on. cfa1e77820
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