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Motion (along with momentum and energy) is one of the building blocks to our treatment of Einstein's Special Theory of Relativity.
vector addition and subtraction 19 min
light-years 15 min
airbus 330 300 speed at V1 7 min
Momentum! is one of Newton's very important "discoveries" and we'll use it repeatedly. It's $p=mv$…where $m$ is mass (another Newton invention) and $v$ is velocity.
guy falling!
third law
2.4 circular motion 34 min
Much of our interest in particle physics comes from analyzing collisions of protons with protons (or antiprotons!), electrons with antielectrons, or neutrinos with protons, and so on. We'll concentrate on just a few configurations of one thing colliding with one thing. Buried in this discussion is the important concept of momentum conservation.
Motion (along with momentum and energy) is one of the building blocks to our treatment of Einstein's Special Theory of Relativity
sky1greeks2
here
Electricity and Magnetism were formalized in the middle of the 19th century after inventing the very useful concept of the "field."
Our first particle discovery! The electron emerged as a result of improved technology that made a simple "particle accelerator" to be invented and exploited by JJ Thomson. Particle accelerators and particle detectors are a part of our QS&BB story, but not in an engineering sense: you don't need to build one, just appreciate how they work. Telescopes are also particle detectors as they utilize the entire electromagnetic spectrum.