composition of radium bromide as RaBr_{2}, the number per second per gram of radium is 2·5 × 10^{10}. This number will be found to be in very good agreement with that deduced from indirect data (chapter XIII.). The value of N is of great importance in determining the magnitude of various quantities in radio-active calculations.
94. Mass and energy of the α particle. It has been
pointed out that the α rays from radium and polonium are
analogous to the Canal rays of Goldstein, for both carry a positive
charge and are difficult to deflect by a magnetic field. The experiments
of Wien have shown that the velocity of projection of the
canal rays varies with the gas in the tube and the intensity of the
electric field applied, but it is generally about 1/10 of the velocity
of the α particle from radium. The value of e/m is also variable,
depending upon the gas in the tube.
It has been shown that for the α rays of radium
V = 2·5 × 10^9 and e/m = 6 × 10^3.
Now the value of e/m for the hydrogen atom, liberated in the electrolysis of water, is 10^4. Assuming the charge carried by the α particle to be the same as that carried by the hydrogen atom, the mass of the α particle is about twice that of the hydrogen atom. Taking into consideration the uncertainty attaching to the experimental value of e/m for the α particle, if the α particle consists of any known kind of matter, this result indicates that it consists either of projected helium or hydrogen. Further evidence on this important question is given in section 261.
The α rays from all the radio-active substances and their products, such as the radio-active emanations and the matter causing excited activity, possess the same general properties and do not vary very much in penetrating power. It is thus probable that in all cases the α rays from the different radio-active substances consist of positively charged bodies projected with great velocity. Since the rays from radium are made up in part of α rays from the emanation stored in the radium, and from the excited activity which it produces, the α rays from each of these products must consist of positively charged bodies; for it has been shown that all the α rays from radium are deviated in a strong magnetic field.
