Evolution endowed us with intuition only for those aspects of physics that had survival value for our distant ancestors, such as the parabolic orbits of flying rocks (explaining our penchant for baseball). A cavewoman thinking too hard about what matter is ultimately made of might fail to notice the tiger sneaking up behind and get cleaned right out of the gene pool. Darwin’s theory thus makes the testable prediction that whenever we use technology to glimpse reality beyond the human scale, our evolved intuition should break down. We’ve repeatedly tested this prediction, and the results overwhelmingly support Darwin. At high speeds, Einstein realized that time slows down, and curmudgeons on the Swedish Nobel committee found this so weird that they refused to give him the Nobel Prize for his relativity theory. At low temperatures, liquid helium can flow upward. At high temperatures, colliding particles change identity; to me, an electron colliding with a positron and turning into a Z-boson feels about as intuitive as two colliding cars turning into a cruise ship. On microscopic scales, particles schizophrenically appear in two places at once, leading to the quantum conundrums mentioned above. On astronomically large scales… weirdness strikes again: if you intuitively understand all aspects of black holes [then you] should immediately put down this book and publish your findings before someone scoops you on the Nobel Prize for quantum gravity… [also, ] the leading theory for what happened [in the early universe] suggests that space isn’t merely really really big, but actually infinite, containing infinitely many exact copies of you, and even more near-copies living out every possible variant of your life in two different types of parallel universes. Max Tegmark
About This Quote

The answer to Maxwell's question about what to do with his equations of electromagnetism was left vague by the founding fathers of physics. They were too busy worrying about whether the universe was static and unchanging, or if it was changing and evolving, such as the circadian rhythm in your body. Over time, we've become more and more curious about the nature of our universe and the origins of our existence. We've discovered that everything we know about our universe is just a tiny fraction of what we know.

This idea that we're just a tiny fragment in an infinite multiverse has been proposed by physicists such as Stephen Hawking. Today, physicists are interested in exploring other universes to learn more about ourselves and other possibilities for our existence, while also learning more about the laws of physics.

Source: Our Mathematical Universe: My Quest For The Ultimate Nature Of Reality

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