A History of MechanicsRoutledge, 1955 - 671 стор. |
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Результати 1-3 із 58
Сторінка 20
... Aristotle's law of powers , which he called dúvaμis or ioxis , is formulated in Chapter V of Book VII of his Physics in the following way . " Let the motive agency be a , the moving body ẞ , the distance tra- velled y and the time taken ...
... Aristotle's law of powers , which he called dúvaμis or ioxis , is formulated in Chapter V of Book VII of his Physics in the following way . " Let the motive agency be a , the moving body ẞ , the distance tra- velled y and the time taken ...
Сторінка 21
... Aristotle then assumes that , in contrast to solid bodies , air spontaneously preserves the impul- sion which it receives when the projectile is thrown , and that it can in consequence act as the motive agency during the projectile's ...
... Aristotle then assumes that , in contrast to solid bodies , air spontaneously preserves the impul- sion which it receives when the projectile is thrown , and that it can in consequence act as the motive agency during the projectile's ...
Сторінка 23
René Dugas. way by Aristotle . In particular , Aristotle did not identify it with the centre of gravity , of which he was ignorant.1 In this same treatise Aristotle repeatedly enumerates the arguments for the spherical figure of the ...
René Dugas. way by Aristotle . In particular , Aristotle did not identify it with the centre of gravity , of which he was ignorant.1 In this same treatise Aristotle repeatedly enumerates the arguments for the spherical figure of the ...
Зміст
Nicholas Copernicus 14721543 His system of the world | 5 |
The priority of Herman and Euler in the matter of dAlemberts | 6 |
Transformation of Maxwells equations including convection | 11 |
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Загальні терміни та фрази
acceleration Albert of Saxony Archimedes Aristotle assumed axis Bernoulli Blasius of Parma Carnot centre of gravity classical mechanics concept conservation considered coordinates d'Alembert Daniel Bernoulli deduced Descartes differential direction displacement distance Duhem dynamics Earth Einstein elastic electron energy equal equations equilibrium Euler experiment fall Fermat fluid function Galileo generalised given heavy body Huyghens hypothesis impact impetus inclined plane inertia instant Jean Bernoulli Kepler Lagrange least action Leibniz length Leonardo lever living forces Louis de Broglie mass Maupertuis means moving body natural necessary Newton observation obtained Oresme oscillation particle pendulum physical problem projectile proportional Proposition quantity of motion quantum mechanics ratio relation relative resistance rest Roberval rotation solution space sphere statics supposed surface theory trajectory travelled treatise uniformly variables velocity vertical wave weight XIIIth Century ди ду дх