What is another word for classical physics?

Pronunciation: [klˈasɪkə͡l fˈɪzɪks] (IPA)

The term "classical physics" refers to the fundamental principles and theories developed by scientists like Isaac Newton and James Clerk Maxwell, prior to the advent of quantum mechanics. Synonyms for classical physics include traditional physics, Newtonian physics, and analog physics. These terms all describe the same body of knowledge that governs the behavior of macroscopic objects and electromagnetic fields. The study of classical physics has been crucial to the development of engineering, astronomy, and other fields. However, its limitations have also prompted the emergence of new fields like quantum mechanics and relativity, which extend and modify classical principles to explain the behavior of ever-smaller particles and the properties of spacetime.

Synonyms for Classical physics:

What are the hypernyms for Classical physics?

A hypernym is a word with a broad meaning that encompasses more specific words called hyponyms.

Famous quotes with Classical physics

  • A consistent pursuit of classical physics forces a transformation in the very heart of that physics.
    Werner Heisenberg
  • The realization that systems are integrated wholes that cannot be understood by analysis was even more shocking in physics than in biology. Ever since Newton, physicists had believed that all physical phenomena could be reduced to the properties of hard and solid material particles. In the 1920s, however, quantum theory forced them to accept the fact that the solid material objects of classical physics dissolve at the subatomic level into wavelike patterns of probabilities. These patterns, moreover, do not represent probabilities of things, but rather probabilities of interconnections. The subatomic particles have no meaning as isolated entities but can be understood only as interconnections, or correlations, among various processes of observation and measurement. In other words, subatomic particles are not “things” but interconnections among things, and these, in turn, are interconnections among other things, and so on. In quantum theory we never end up with any “things”; we always deal with interconnections.
    Fritjof Capra
  • It seems incredible that we should willingly trade certainty for quantum confusion and doubt. But, make no mistake, despite its simplicity, its appealing visual images and its resonance with our common understanding, classical physics failed. The quantum description was built amidst the ruins of the structure that preceded it, and it is therefore appropriate that we begin our journey from within this classical landscape.
    Jim Baggott
  • The two great conceptual revolutions of twentieth-century science, the overturning of classical physics by Werner Heisenberg and the overturning of the foundations of mathematics by Kurt Gödel, occurred within six years of each other within the narrow boundaries of German-speaking Europe. ... A study of the historical background of German intellectual life in the 1920s reveals strong links between them. Physicists and mathematicians were exposed simultaneously to external influences that pushed them along parallel paths. ... Two people who came early and strongly under the influence of Spengler's philosophy were the mathematician Hermann Weyl and the physicist Erwin Schrödinger. ... Weyl and Schrödinger agreed with Spengler that the coming revolution would sweep away the principle of physical causality. The erstwhile revolutionaries David Hilbert and Albert Einstein found themselves in the unaccustomed role of defenders of the status quo, Hilbert defending the primacy of formal logic in the foundations of mathematics, Einstein defending the primacy of causality in physics. In the short run, Hilbert and Einstein were defeated and the Spenglerian ideology of revolution triumphed, both in physics and in mathematics. Heisenberg discovered the true limits of causality in atomic processes, and Gödel discovered the limits of formal deduction and proof in mathematics. And, as often happens in the history of intellectual revolutions, the achievement of revolutionary goals destroyed the revolutionary ideology that gave them birth. The visions of Spengler, having served their purpose, rapidly became irrelevant.
    Freeman Dyson

Related words: classical mechanics, classical thermodynamics, classical electronics

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