Principles of Electricity and Electromagnetism |
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Page 117
... difference between the conductors at a distance r from the input of the cable and i is the current flowing through either conductor at that point . Assuming a continuous variation of V and i , the potential difference Ꭷ . dx ax V { di ...
... difference between the conductors at a distance r from the input of the cable and i is the current flowing through either conductor at that point . Assuming a continuous variation of V and i , the potential difference Ꭷ . dx ax V { di ...
Page 175
... difference produced by the difference in concentration can be written V = e kT ui u1 + U2 U2 Na loge Пь = To obtain an idea of the order of magnitude of this potential difference , kT / e 0.026 volt for 23 ° C. The ionic concentration ...
... difference produced by the difference in concentration can be written V = e kT ui u1 + U2 U2 Na loge Пь = To obtain an idea of the order of magnitude of this potential difference , kT / e 0.026 volt for 23 ° C. The ionic concentration ...
Page 175
... difference produced by the difference in concentration can be written V = kT u1 e u1 + uz U2 Na loge Пь = To obtain an idea of the order of magnitude of this potential difference , kT / e 0.026 volt for 23 ° C. The ionic concentration ...
... difference produced by the difference in concentration can be written V = kT u1 e u1 + uz U2 Na loge Пь = To obtain an idea of the order of magnitude of this potential difference , kT / e 0.026 volt for 23 ° C. The ionic concentration ...
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alternating current alternating-current amplitude angle angular velocity anode applied approximately armature assumed atom axis calculated capacity cathode cell centimeter characteristic charge q circuit coefficient coil component condenser conduction conductor considered copper current density current flowing curve cylinder deflection determined dielectric constant direct-current discharge distance effective electric field electromotive force electrons electrostatic element energy equal equation ferromagnetic filament flux force frequency function galvanometer given grad grid hence hysteresis impedance induction insulating integral known Laplace's equation linear load magnetic field magnetic moment magnitude maximum measured medium metal meter molecules negative normal obtained ohms parallel plate polarization potential difference potential wave potentiometer produced proportional quantity R₁ radius ratio rectifier region represents resistance rotation Show shown in Fig solenoid solution substance surface temperature terminals theorem torque tube V₁ vector voltage volts wire written zero