A History of MechanicsRoutledge, 1955 - 671 стор. |
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Сторінка 175
... impact . The impact is therefore equal to their sum , that is , to twice the decrease experienced by the greater moment . 99 Wallis was also concerned with elastic impact ( in Chapter XIII of his Treatise ) . He related this to the ...
... impact . The impact is therefore equal to their sum , that is , to twice the decrease experienced by the greater moment . 99 Wallis was also concerned with elastic impact ( in Chapter XIII of his Treatise ) . He related this to the ...
Сторінка 328
... impact they have no relative velocity in the line of their reciprocal action . Their real motions after the impact cannot therefore produce any action between them . It follows that the motion of the system after the impact is ...
... impact they have no relative velocity in the line of their reciprocal action . Their real motions after the impact cannot therefore produce any action between them . It follows that the motion of the system after the impact is ...
Сторінка 329
... impact of two hard bodies , using an analysis that is , this time , direct . He then extends the law to the impact of any number of hard bodies . From these results , Carnot easily deduced the following theorem , with which his name is ...
... impact of two hard bodies , using an analysis that is , this time , direct . He then extends the law to the impact of any number of hard bodies . From these results , Carnot easily deduced the following theorem , with which his name is ...
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