The London, Edinburgh and Dublin Philosophical Magazine and Journal of ScienceTaylor & Francis, 1901 - English periodicals |
From inside the book
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Page 26
... represented in the accompanying diagram , ( fig . 6 ) —a circular boundary of semi- Fig . 6 . circular corrugations . In this case it is obvious from the symmetry that the time - integral of kinetic energy of com- ponent motion parallel ...
... represented in the accompanying diagram , ( fig . 6 ) —a circular boundary of semi- Fig . 6 . circular corrugations . In this case it is obvious from the symmetry that the time - integral of kinetic energy of com- ponent motion parallel ...
Page 66
... represented by the same equation , this equation must contain the general law which governs the velocity of reactions of all other kinds of reaction before perfect equilibrium as well . More recent Experiments . It was found that the ...
... represented by the same equation , this equation must contain the general law which governs the velocity of reactions of all other kinds of reaction before perfect equilibrium as well . More recent Experiments . It was found that the ...
Page 68
... represents a law of nature it must satisfy two very essential points : first , it must hold good for the whole curve , and , secondly , it must be general , and it must be based on a simple clearly conceivable rational basis . It must ...
... represents a law of nature it must satisfy two very essential points : first , it must hold good for the whole curve , and , secondly , it must be general , and it must be based on a simple clearly conceivable rational basis . It must ...
Page 85
... representing the velocity of sepa- ration of ice from an NOK solution , the other the velocity of separation of ... represents II . when instead of the actual 1 cm . = 1 second , 1 cm . = 10 seconds is taken . The same result was found ...
... representing the velocity of sepa- ration of ice from an NOK solution , the other the velocity of separation of ... represents II . when instead of the actual 1 cm . = 1 second , 1 cm . = 10 seconds is taken . The same result was found ...
Page 89
... represented by K from setting the same into a state of reaction ; as , however , K increases with the amount of overcooling or supersaturation , & c . , K ultimately arrives at a value greater than those counteracting passive forces ...
... represented by K from setting the same into a state of reaction ; as , however , K increases with the amount of overcooling or supersaturation , & c . , K ultimately arrives at a value greater than those counteracting passive forces ...
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æther apparatus atom bismuth calculated carbon cathode centim centre charge coil component condenser condensing-plates constant corresponding Crémieu crystal Crystallographic Axis curve cyanogen deflexion density diameter dielectric direction discharge disk distance effect electric electrodes electrometer electromotive force element equal equation equilibrium experiments field force formula frequency function galvanometer gases given gives harmonic heat Hence hydrogen increase ionization ions J. J. Thomson kilometres per second kinetic energy length light lines liquid magnetic mean measured metal method millimetres molecules motion needle negative ions observed obtained paper particles period Phil phosphorus plane plate positive potential pressure produced quaternions radiation radius ratio resistance reversed rotation sectors space spectra spectrum spheres suppose surface TABLE temperature theory tube vary velocity vibrations volts volume Voss machine wave-length waves wire zero