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" ... As well as any leader before him, Mr. Biden filled his speech with positive words: democracy (more than any other presidential inaugural), hope, renewal, resolve, triumph, will, precious, together, indivisible, peace, optimistic, heart, resilience, strength, sacred, possibility, and hundreds of others. No negativity anywhere. ... "
" ... For matter and radiation as we understand it, there's very good evidence that every single thing we've ever been able to observe or measure is quantum at some level. There are fundamental, indivisible, energy-carrying quanta that make up the matter and energy we know of. But quantized doesn't necessarily mean discrete; you can be quantum and continuous as well. Which ones are space and time? Here's how we'll find out. ... "
" ... It's a little counterintuitive, but it doesn't actually matter what type of particle you are. Whether you're matter or antimatter; whether you're massive or massless; whether you're a fundamental, indivisible particle or a composite one are all irrelevant. The fabric of the Universe is curved, and that curvature is what determines how everything moves through the Universe. ... "
" ... The Universe, if you look at it closely and carefully enough, is fundamentally quantum in nature. If you try and divide matter up into smaller and smaller pieces, eventually you arrive at indivisible components that cannot be broken up any further. These particles interact by exchanging a specific type of quantum that couples to their various charges. Gluons mediate the strong nuclear force, interacting with particles that have a color charge. The W and Z bosons mediate the weak force, coupling to the particles that have weak hypercharge and isospins. And the photon mediates the electromagnetic force, acting on particles with an electric charge. Gravitation, though, might be the outlier. Our theory of gravitation is classical: General Relativity. In theory, though, there should be a quantum counterpart, mediated by a hypothetical quantum particle known as the graviton. Only, is it possible to find out whether gravitons actually exist? That’s what Mark Richards wants to know, asking: ... "