The London, Edinburgh and Dublin Philosophical Magazine and Journal of ScienceTaylor & Francis, 1928 - English periodicals |
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Results 1-5 of 15
Page 179
... solenoid , it is necessary to distinguish between the electric forces due to electric charges on the solenoid and those due to the variation of the magnetic force . The latter will be indicated by the suffix m ; thus Em and Fm will be ...
... solenoid , it is necessary to distinguish between the electric forces due to electric charges on the solenoid and those due to the variation of the magnetic force . The latter will be indicated by the suffix m ; thus Em and Fm will be ...
Page 180
If n solenoid when continuous oscillations are maintained . be the number of turns per unit length of the solenoid , I the distance between P and Q , the magnetic force H inside the Fig . 1 . P I e solenoid is 4πni , so that e , which ...
If n solenoid when continuous oscillations are maintained . be the number of turns per unit length of the solenoid , I the distance between P and Q , the magnetic force H inside the Fig . 1 . P I e solenoid is 4πni , so that e , which ...
Page 181
... solenoid , two solenoids G1 and G2 were used . The solenoids were wound differently so that when currents giving the same values of the force Fm in the central plane flow in each coil , there is a large difference in the intensity and ...
... solenoid , two solenoids G1 and G2 were used . The solenoids were wound differently so that when currents giving the same values of the force Fm in the central plane flow in each coil , there is a large difference in the intensity and ...
Page 182
... Solenoid G2 . 5 624 3 Dz In the diagrams the coils are represented as having five turns each instead of thirteen in order to simplify the figures . The centre of the third turn ( assuming there were five turns in the solenoid ) may be ...
... Solenoid G2 . 5 624 3 Dz In the diagrams the coils are represented as having five turns each instead of thirteen in order to simplify the figures . The centre of the third turn ( assuming there were five turns in the solenoid ) may be ...
Page 183
... solenoid . Fig . 5 . A2 W B2 W 5 1 5 4 2 2 . 3 . 3 W C2 D2 Solenoid G1 . The electric force is therefore much greater in the upper part of the field above the central plane than in the lower part of the field . The lines marked with ...
... solenoid . Fig . 5 . A2 W B2 W 5 1 5 4 2 2 . 3 . 3 W C2 D2 Solenoid G1 . The electric force is therefore much greater in the upper part of the field above the central plane than in the lower part of the field . The lines marked with ...
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absorption aerofoil amalgams amperes amplitude angle apparatus approximately assumed atoms axis birefringence calculated cathode cent centimetre centre coefficient constant corresponding cos² crystal curve cylinder deflexion density determined diameter discharge distance effect electric force electrometer electrons electroprofile energy equation experimental experiments expression flow formula frequency function galvanometer gases given gradient heat helium Hence hyperbola increase integral intensity ionization ionization chamber J. J. Thomson liquid magnetic maximum mean measured mercury metal method mica molecules motion negative observed obtained oscillations paper particles Phil Phys plane plate polarization positive ions potential pressure propyl alcohol quartz radiation radius ratio rectified current refractive index resistance rotation shown sin² solenoid solution sphere surface TABLE temperature theory thermopile tube variation velocity vibration viscosity voltage volts vortices wave-length wire zero