A History of MechanicsRoutledge & Paul, 1957 - 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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able acceleration according action appears applied assumed become body called carried cause centre of gravity Century classical complete concept concerned condition connection considered constant continuous corresponding Descartes determined direction distance dynamics Earth effect energy equal equations equilibrium Euler example existence experiment expressed fact fall field fluid function Galileo given hand Huyghens hypothesis ideas impact impetus inclined increases Lagrange length lever light living forces mass matter means measure mechanics motion moving natural necessary observation obtained original particle physical plane position possible principle problem produced proportional Proposition quantity quantum quantum mechanics reference relation relative remains remarked represented resistance respect rest result sense shows simple solution space special relativity starts statics supposed surface taken theory travelled true velocity wave weight World writes