Philosophical MagazineTaylor & Francis, 1913 - Physics |
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Page 11
... particles , we can very simply calculate the orbits of the electrons during the collisions , and consequently the energy transferred to them and the loss of volocity of the particle . If , however , we integrate the total loss of energy ...
... particles , we can very simply calculate the orbits of the electrons during the collisions , and consequently the energy transferred to them and the loss of volocity of the particle . If , however , we integrate the total loss of energy ...
Page 184
... particles from different radio- active products , but is characteristic of the product . Bragg and others have shown that in the case of a particles from a single product the length of the range depends not only on the density of the ...
... particles from different radio- active products , but is characteristic of the product . Bragg and others have shown that in the case of a particles from a single product the length of the range depends not only on the density of the ...
Page 621
... particles of the emanation and Ra A , which are of shorter range than those of Ra C , and therefore more easily scattered . The measurements could not easily be extended to a particles of lower velocity than corresponds to a range of ...
... particles of the emanation and Ra A , which are of shorter range than those of Ra C , and therefore more easily scattered . The measurements could not easily be extended to a particles of lower velocity than corresponds to a range of ...
Contents
SIXTH SERIES | 1 |
Dr N Bohr on the Theory of the Decrease of Velocity | 10 |
Dr S A Shorter on the Application of the Theory | 31 |
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absorbed absorption acid activity alpha rays aluminium ampere angle apparatus approximately atomic weight beam brass cadmium iodide calculated carbon cathode rays cent centimetre charge circuit coefficient collisions constant contact potential corpuscles corpuscular radiation curve deflexion deposit determined diffusion discharge electric electrometer electrons electroscope emanation emission emitted energy equation equilibrium experimental experiments film foil formula frequency galvanometer gases given gives glass heating effect hydrogen increase ionization ionization-chamber ions iridium J. J. Thomson layers magnetic maximum measured mercury metal method mgrms molecules negative nitrogen nuclei observed obtained oxide oxygen paper particles Phil phosphorus Phys Planck unit plate platinum positive pressure Proc produced proportional quantity radium ratio scattering shown solution spectrum sublimate substance surface Table temperature theory thickness thorium tube uranium V₁ vapour velocity vibrations volts wave-length waves wire X-rays zero