Werner Heisenberg — "When I meet God, I am going to ask him two questions: Why relativity? And why tu…"
When I meet God, I am going to ask him two questions: Why relativity? And why turbulence? I really believe he will have an answer for the first.
When I meet God, I am going to ask him two questions: Why relativity? And why turbulence? I really believe he will have an answer for the first.
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"Physics does not consist only of atomic research, science does not consist only of physics, and life does not consist only of science. The aim of atomic research is to fit our empirical knowledge conc…"
"One day, when we have learned to understand the elementary particles, we will have understood the whole world."
"Where there is no uncertainty, there is no quantum mechanics."
"The idea of a simple, objective reality existing independently of the observer has become untenable."
"The Copenhagen interpretation of quantum mechanics starts from the paradox that we describe our experiments in terms of classical physics, and we describe the elementary particles in terms of quantum …"
A humorous yet profound statement on the enduring challenges in physics.
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Even after a lifetime studying nature's deepest rules, two puzzles still feel unsolvable. Relativity, though strange, has a clean mathematical structure that makes sense with effort. Turbulence, the chaotic swirling of fluids, resists every attempt at a clean theory despite being everywhere around us. The speaker jokes that the universe's designer could probably explain spacetime, but even a creator might shrug at why fluids behave so unpredictably.
Heisenberg built quantum mechanics and formulated the uncertainty principle, proving that nature has limits on what can be known precisely. Yet he spent significant effort on fluid turbulence, writing his 1923 doctoral dissertation on it under Sommerfeld. That dual expertise shaped the quip: he mastered quantum weirdness and Einstein's relativity, but turbulence, his first research love, remained stubbornly opaque to him across his entire career.
Heisenberg worked through physics' golden age, the 1920s through 1970s, when relativity and quantum theory overturned Newtonian certainty. Einstein's equations yielded elegant predictions; quantum mechanics matured into the Standard Model. Yet classical fluid dynamics, governed by Navier-Stokes equations since 1845, still defied analytical solution. Even as humans split atoms and reached the moon, everyday phenomena like smoke plumes and weather resisted prediction, a humbling counterpoint to the era's theoretical triumphs.
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