Sentence examples for mechanics from high-quality English sources.

  • Nevertheless, all remain true in quantum mechanics and relativistic mechanics, which have replaced classical mechanics as the most fundamental of all laws.

  • We have already noted that some proposals have been made that seek for the grounding of the very probabilistic nature of statistical mechanics in the fundamentally probabilistic nature of quantum mechanics at the dynamical level, or, rather, in some interpretation of how probability functions in the roots of quantum mechanics.

  • epistemology: Bayesian | Lewis, David | pragmatism | probability, interpretations of | quantum mechanics: action at a distance in | quantum mechanics: Kochen-Specker theorem | quantum mechanics: the role of decoherence in | quantum theory: philosophical issues in | scientific realism | space and time: being and becoming in modern physics

  • compatibilism | free will | Hume, David | incompatibilism: (nondeterministic) theories of free will | laws of nature | Popper, Karl | probability, interpretations of | quantum mechanics | quantum mechanics: Bohmian mechanics | Russell, Bertrand | space and time: supertasks | space and time: the hole argument | time: thermodynamic asymmetry in

Use mechanics in a sentence.

  • Bell’s Theorem | quantum mechanics: Copenhagen interpretation of | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: many-worlds interpretation of | quantum theory: quantum computing | quantum theory: quantum logic and probability theory | quantum theory: the Einstein-Podolsky-Rosen argument in | Reichenbach, Hans: common cause principle

  • Bell’s Theorem | Church-Turing Thesis | computability and complexity | computational complexity theory | quantum mechanics | quantum mechanics: collapse theories | quantum mechanics: the role of decoherence in | quantum theory: philosophical issues in | quantum theory: quantum entanglement and information | quantum theory: the Einstein-Podolsky-Rosen argument in | Turing, Alan | Turing machines

  • Nāgārjuna | properties | quantum mechanics | quantum mechanics: action at a distance in | quantum mechanics: collapse theories | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: modal interpretations of | quantum theory: philosophical issues in | quantum theory: quantum entanglement and information | quantum theory: quantum logic and probability theory

  • Dutch book arguments | quantum mechanics | quantum mechanics: action at a distance in | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: relational | quantum mechanics: the role of decoherence in | quantum theory: philosophical issues in | quantum theory: quantum computing | quantum theory: quantum entanglement and information | quantum theory: the Einstein-Podolsky-Rosen argument in

  • quantum mechanics | quantum mechanics: Bohmian mechanics | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: Kochen-Specker theorem | quantum mechanics: many-worlds interpretation of | quantum mechanics: relational | quantum mechanics: the role of decoherence in | quantum theory: philosophical issues in | quantum theory: the Einstein-Podolsky-Rosen argument in

  • Bell’s Theorem | Einstein, Albert: Einstein-Bohr debates | Einstein, Albert: philosophy of science | intrinsic vs. extrinsic properties | quantum mechanics | quantum mechanics: action at a distance in | quantum mechanics: Bohmian mechanics | quantum mechanics: modal interpretations of | quantum theory: quantum entanglement and information | Reichenbach, Hans: common cause principle | statistical physics: philosophy of statistical mechanics

  • quantum mechanics: Bohmian mechanics | quantum mechanics: collapse theories | quantum mechanics: Copenhagen interpretation of | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: Kochen-Specker theorem | quantum mechanics: many-worlds interpretation of | quantum mechanics: modal interpretations of | quantum mechanics: relational | quantum mechanics: the role of decoherence in

  • Bell’s Theorem | Einstein, Albert: philosophy of science | quantum mechanics: action at a distance in | quantum mechanics: Bohmian mechanics | quantum mechanics: Copenhagen interpretation of | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: modal interpretations of | quantum mechanics: relational | quantum mechanics: the role of decoherence in | quantum theory: philosophical issues in | quantum theory: quantum entanglement and information | Uncertainty Principle

mechanics sentence examples

  • Bell’s Theorem | causal models | causation: and manipulability | causation: backward | causation: the metaphysics of | compatibilism | determinism: causal | quantum mechanics | quantum mechanics: action at a distance in | quantum mechanics: Bohmian mechanics | quantum mechanics: Copenhagen interpretation of | quantum mechanics: Kochen-Specker theorem | quantum theory: philosophical issues in | quantum theory: the Einstein-Podolsky-Rosen argument in | time | time: thermodynamic asymmetry in | time travel | time travel: and modern physics

  • physics: holism and nonseparability | quantum mechanics | quantum mechanics: Copenhagen interpretation of | quantum mechanics: Kochen-Specker theorem | quantum mechanics: many-worlds interpretation of | quantum mechanics: modal interpretations of | quantum mechanics: the role of decoherence in | quantum theory: philosophical issues in | quantum theory: quantum entanglement and information | quantum theory: quantum gravity | quantum theory: quantum logic and probability theory | quantum theory: the Einstein-Podolsky-Rosen argument in | Uncertainty Principle

  • Bell’s Theorem | intrinsic vs. extrinsic properties | physics: holism and nonseparability | quantum mechanics | quantum mechanics: Bohmian mechanics | quantum mechanics: collapse theories | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: Kochen-Specker theorem | quantum mechanics: many-worlds interpretation of | quantum mechanics: modal interpretations of | quantum theory: the Einstein-Podolsky-Rosen argument in | Reichenbach, Hans: common cause principle | Salmon, Wesley | supervenience | Uncertainty Principle

  • chaos | constructive empiricism | quantum mechanics | quantum mechanics: action at a distance in | quantum mechanics: Bohmian mechanics | quantum mechanics: collapse theories | quantum mechanics: consistent histories approach | quantum mechanics: Copenhagen interpretation of | quantum mechanics: Everett’s relative-state formulation of | quantum mechanics: many-worlds interpretation of | quantum mechanics: modal interpretations of | quantum mechanics: relational | quantum theory: and consciousness | quantum theory: Bayesian and pragmatist views | quantum theory: philosophical issues in | quantum theory: quantum entanglement and information | quantum theory: quantum field theory | quantum theory: quantum gravity | quantum theory: the Einstein-Podolsky-Rosen argument in | statistical physics: philosophy of statistical mechanics | time: thermodynamic asymmetry in

mechanics


  • noun cognition

    - the branch of physics concerned with the motion of bodies in a frame of reference


  • noun act

    - the technical aspects of doing something

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Use mechanics in a sentence

On this page, there are 20 sentence examples for mechanics. They are all from high-quality sources and constantly processed by lengusa's machine learning routines.

    Sentence frequency composition for this page:
  • 18 sentence examples for mechanics from Stanford Encyclopedia of Philosophy
  • 2 sentence examples for mechanics from Encyclopedia Britannica
    There are 1 relevant lexical connections:
  • • Relevant word or phrase for mechanics is mechanism