Timeline of classical mechanics

The following is a timeline of the history of classical mechanics Antiquity4th century BC Aristotle invents the system of Aristotelian physics which is later largely disproved 4th century BC Babylonian astronomers calculate Jupiter s position using the Trapezoidal rule 260 BC Archimedes works out the principle of the lever and connects buoyancy to weight 60 Hero of Alexandria writes Metrica Mechanics on means to lift heavy objects and Pneumatics on machines working on pressure 350 Themistius states that static friction is larger than kinetic frictionEarly mechanics6th century John Philoponus introduces the concept of impetus and the theory was modified by Avicenna in the 11th century and Ibn Malka al Baghdadi in the 12th century 6th century John Philoponus says that by observation two balls of very different weights will fall at nearly the same speed He therefore tests the equivalence principle 1021 Al Biruni uses three orthogonal coordinates to describe point in space 1100 1138 Avempace develops the concept of a fatigue which according to Shlomo Pines is precursor to Leibnizian idea of force 1100 1165 Hibat Allah Abu l Barakat al Baghdaadi discovers that force is proportional to acceleration rather than speed a fundamental law in classical mechanics1340 1358 Jean Buridan develops the theory of impetus 14th century Oxford Calculators and French collaborators prove the mean speed theorem 14th century Nicole Oresme derives the times squared law for uniformly accelerated change Oresme however regarded this discovery as a purely intellectual exercise having no relevance to the description of any natural phenomena and consequently failed to recognise any connection with the motion of accelerating bodies 1500 1528 Al Birjandi develops the theory of circular inertia to explain Earth s rotation 16th century and Luca Ghini experimentally contradict Aristotelian view on free fall 16th century Domingo de Soto suggests that bodies falling through a homogeneous medium are uniformly accelerated Soto however did not anticipate many of the qualifications and refinements contained in Galileo s theory of falling bodies He did not for instance recognise as Galileo did that a body would fall with a strictly uniform acceleration only in a vacuum and that it would otherwise eventually reach a uniform terminal velocity 1581 Galileo Galilei notices the timekeeping property of the pendulum 1589 Galileo Galilei uses balls rolling on inclined planes to show that different weights fall with the same acceleration 1638 Galileo Galilei publishes Dialogues Concerning Two New Sciences which were materials science and kinematics where he develops amongst other things Galilean transformation 1644 Rene Descartes suggests an early form of the law of conservation of momentum 1645 Ismael Bullialdus argues that gravity weakens as the inverse square of the distance 1651 Giovanni Battista Riccioli and Francesco Maria Grimaldi discover the Coriolis effect 1658 Christiaan Huygens experimentally discovers that balls placed anywhere inside an inverted cycloid reach the lowest point of the cycloid in the same time and thereby experimentally shows that the cycloid is the tautochrone 1668 John Wallis suggests the law of conservation of momentum 1673 Christiaan Huygens publishes his Horologium Oscillatorium Huygens describes in this work the first two laws of motion The book is also the first modern treatise in which a physical problem the accelerated motion of a falling body is idealized by a set of parameters and then analyzed mathematically 1676 1689 Gottfried Leibniz develops the concept of vis viva a limited theory of conservation of energy 1677 Baruch Spinoza puts forward a primitive notion of Newton s first lawNewtonian mechanics1687 Isaac Newton publishes his Philosophiae Naturalis Principia Mathematica in which he formulates Newton s laws of motion and Newton s law of universal gravitation 1690 James Bernoulli shows that the cycloid is the solution to the tautochrone problem 1691 Johann Bernoulli shows that a chain freely suspended from two points will form a catenary 1691 James Bernoulli shows that the catenary curve has the lowest center of gravity of any chain hung from two fixed points 1696 Johann Bernoulli shows that the cycloid is the solution to the brachistochrone problem 1710 Jakob Hermann shows that Laplace Runge Lenz vector is conserved for a case of the inverse square central force 1714 Brook Taylor derives the fundamental frequency of a stretched vibrating string in terms of its tension and mass per unit length by solving an ordinary differential equation 1733 Daniel Bernoulli derives the fundamental frequency and harmonics of a hanging chain by solving an ordinary differential equation 1734 Daniel Bernoulli solves the ordinary differential equation for the vibrations of an elastic bar clamped at one end 1739 Leonhard Euler solves the ordinary differential equation for a forced harmonic oscillator and notices the resonance 1742 Colin Maclaurin discovers his uniformly rotating self gravitating spheroids 1743 Jean le Rond d Alembert publishes his Traite de Dynamique in which he introduces the concept of generalized forces and D Alembert s principle 1747 D Alembert and Alexis Clairaut publish first approximate solutions to the three body problem 1749 Leonhard Euler derives equation for Coriolis acceleration 1759 Leonhard Euler solves the partial differential equation for the vibration of a rectangular drum 1764 Leonhard Euler examines the partial differential equation for the vibration of a circular drum and finds one of the Bessel function solutions 1776 John Smeaton publishes a paper on experiments relating power work momentum and kinetic energy and supporting the conservation of energyAnalytical mechanics1788 Joseph Louis Lagrange presents Lagrange s equations of motion in the Mechanique Analytique 1798 Pierre Simon Laplace publishes his Traite de mecanique celeste vol 1 and lasts vol 5 in 1825 In this he summarized and extended the work of his predecessors 1803 Louis Poinsot develops idea of angular momentum conservation this result was previously known only in the case of conservation of areal velocity 1813 Peter Ewart supports the idea of the conservation of energy in his paper On the measure of moving force 1821 William Hamilton begins his analysis of Hamilton s characteristic function and Hamilton Jacobi equation 1829 Carl Friedrich Gauss introduces Gauss s principle of least constraint 1834 Carl Jacobi discovers his uniformly rotating self gravitating ellipsoids 1834 Louis Poinsot notes an instance of the intermediate axis theorem 1835 William Hamilton states Hamilton s canonical equations of motion 1838 Liouville begins work on Liouville s theorem 1841 Julius von Mayer an amateur scientist writes a paper on the conservation of energy but his lack of academic training leads to a priority dispute 1847 Hermann von Helmholtz formally states the law of conservation of energy first half of the 19th century Cauchy develops his momentum equation and his stress tensor 1851 Leon Foucault shows the Earth s rotation with a huge pendulum Foucault pendulum 1870 Rudolf Clausius deduces virial theorem 1890 Henri Poincare discovers the sensibility of initial conditions in the three body problem 1898 Jacques Hadamard discusses the Hadamard billiards Moderns developments1900 Max Planck introduces the idea of quanta introducing quantum mechanics 1902 James Jeans finds the length scale required for gravitational perturbations to grow in a static nearly homogeneous medium 1905 Albert Einstein first mathematically describes Brownian motion and introduces relativistic mechanics 1915 Emmy Noether proves Noether s theorem from which conservation laws are deduced 1915 Albert Einstein introduces general relativity 1923 Elie Cartan introduces the geometrized Newtonian gravitation treating Newtonian gravitation in terms of spacetime 1931 1932 Bernard Koopman and John von Neumann papers led to the development of Koopman von Neumann classical mechanics 1952 Parker develops a tensor form of the virial theorem 1954 Andrey Kolmogorov publishes the first version of the Kolmogorov Arnold Moser theorem 1961 Edward Norton Lorenz discovers Lorenz systems and establishes the field of chaos theory 1978 Vladimir Arnold states precise form of Liouville Arnold theorem 1983 Mordehai Milgrom proposes modified Newtonian dynamics as an alternative to the dark matter hypothesis 1992 Udwadia and Kalaba create Udwadia Kalaba equation 2003 John D Norton introduces Norton s domeReferencesOssendrijver Mathieu 29 Jan 2016 Ancient Babylonian astronomers calculated Jupiter s position from the area under a time velocity graph Science 351 6272 482 484 Bibcode 2016Sci 351 482O doi 10 1126 science aad8085 PMID 26823423 S2CID 206644971 Retrieved 29 January 2016 Sambursky Samuel 2014 The Physical World of Late Antiquity Princeton University Press pp 65 66 ISBN 9781400858989 Sorabji Richard 2010 John Philoponus Philoponus and the Rejection of Aristotelian Science 2nd ed Institute of Classical Studies University of London p 47 ISBN 978 1 905 67018 5 JSTOR 44216227 OCLC 878730683 O Connor John J Robertson Edmund F Al Biruni MacTutor History of Mathematics Archive University of St Andrews One of the most important of al Biruni s many texts is Shadows which he is thought to have written around 1021 Shadows is an extremely important source for our knowledge of the history of mathematics astronomy and physics It also contains important ideas such as the idea that acceleration is connected with non uniform motion using three rectangular coordinates to define a point in 3 space and ideas that some see as anticipating the introduction of polar coordinates Shlomo Pines 1964 La dynamique d Ibn Bajja in Melanges Alexandre Koyre I 442 468 462 468 Paris cf Abel B Franco October 2003 Avempace Projectile Motion and Impetus Theory Journal of the History of Ideas 64 4 p 521 546 543 Pines has also seen Avempace s idea of fatigue as a precursor to the Leibnizian idea of force which according to him underlies Newton s third law of motion and the concept of the reaction of forces Pines Shlomo 1970 Abu l Barakat al Baghdadi Hibat Allah Dictionary of Scientific Biography Vol 1 New York Charles Scribner s Sons pp 26 28 ISBN 0 684 10114 9 cf Abel B Franco October 2003 Avempace Projectile Motion and Impetus Theory Journal of the History of Ideas 64 4 p 521 546 528 Hibat Allah Abu l Barakat al Bagdadi c 1080 after 1164 65 extrapolated the theory for the case of falling bodies in an original way in his Kitab al Mu tabar The Book of that Which is Established through Personal Reflection This idea is according to Pines the oldest negation of Aristotle s fundamental dynamic law namely that a constant force produces a uniform motion and is thus an anticipation in a vague fashion of the fundamental law of classical mechanics namely that a force applied continuously produces acceleration Clagett 1968 p 561 Nicole Oresme and the Medieval Geometry of Qualities and Motions a treatise on the uniformity and difformity of intensities known as Tractatus de configurationibus qualitatum et motuum Madison WI University of Wisconsin Press ISBN 0 299 04880 2 Grant 1996 p 103 F Jamil Ragep 2001 Tusi and Copernicus The Earth s Motion in Context Science in Context 14 1 2 p 145 163 Cambridge University Press Timeline of Classical Mechanics and Free Fall www scientus org Retrieved 2019 01 26 Sharratt Michael 1994 Galileo Decisive Innovator Cambridge Cambridge University Press ISBN 0 521 56671 1 p 198 Wallace William A 2004 Domingo de Soto and the Early Galileo Aldershot Ashgate Publishing ISBN 0 86078 964 0 pp II 384 II 400 III 272 Ismail Bullialdus Astronomia Philolaica Paris France Piget 1645 page 23 Rob Iliffe amp George E Smith 2016 The Cambridge Companion to Newton Cambridge University Press p 75 ISBN 9781107015463 Hermann J 1710 Unknown title Giornale de Letterati d Italia 2 447 467 Hermann J 1710 Extrait d une lettre de M Herman a M Bernoulli datee de Padoue le 12 Juillet 1710 Histoire de l Academie Royale des Sciences 1732 519 521 Poinsot 1834 Theorie Nouvelle de la Rotation des Corps Bachelier Paris Poincare H January 1900 Introduction Acta Mathematica 13 1 2 5 7 doi 10 1007 BF02392506 ISSN 0001 5962 Oestreicher Christian 2007 09 30 A history of chaos theory Dialogues in Clinical Neuroscience 9 3 279 289 doi 10 31887 DCNS 2007 9 3 coestreicher ISSN 1958 5969 PMC 3202497 PMID 17969865 Malament David B 2012 04 02 Topics in the Foundations of General Relativity and Newtonian Gravitation Theory University of Chicago Press ISBN 978 0 226 50247 2 Joseph Ilon 2020 10 19 Koopman von Neumann approach to quantum simulation of nonlinear classical dynamics Physical Review Research 2 4 043102 arXiv 2003 09980 doi 10 1103 PhysRevResearch 2 043102 Parker E N 1954 Tensor Virial Equations Physical Review 96 6 1686 1689 Bibcode 1954PhRv 96 1686P doi 10 1103 PhysRev 96 1686 V I Arnold Mathematical Methods of Classical Mechanics Graduate Texts in Mathematics Springer New York 1978 Vol 60