A Textbook in Electricity and Magnetism |
From inside the book
Page 175
... rotation of charge within the atom . The apparatus sketched in Fig . 16-10 illus- trates the method of demonstrating and measuring the magnetic movement of silver atoms . Cross section of pole pieces A metal such as silver is evaporated ...
... rotation of charge within the atom . The apparatus sketched in Fig . 16-10 illus- trates the method of demonstrating and measuring the magnetic movement of silver atoms . Cross section of pole pieces A metal such as silver is evaporated ...
Page 218
... rotation of the planes of rotation of the electronic orbits . Substances such as bismuth and inert gases like argon and neon which are repelled by the magnetic field are called diamagnetic substances . How shall we explain this ...
... rotation of the planes of rotation of the electronic orbits . Substances such as bismuth and inert gases like argon and neon which are repelled by the magnetic field are called diamagnetic substances . How shall we explain this ...
Page 219
... rotation for the electrons so that rotating the whole atom has no effect on the magnetic field . In atoms such as these the diamagnetic effect is not masked by a stronger paramagnetism ; the induced effects on the velocity of orbital ...
... rotation for the electrons so that rotating the whole atom has no effect on the magnetic field . In atoms such as these the diamagnetic effect is not masked by a stronger paramagnetism ; the induced effects on the velocity of orbital ...
Contents
CHAPTER | 1 |
GRAVITATIONAL POTENTIAL | 16 |
ENERGY RELATIONS | 28 |
Copyright | |
19 other sections not shown
Common terms and phrases
acceleration ammeter Ampère's law amperes atom axis battery body Calculate called capacitance cathode cell centimeters charge Q circuit coil Compute condenser conductor connected Consider constant copper coulomb deflection density dielectric dielectric constant direction distance dynes E₁ earth effect electric field electrolyte electromagnetic electron electron volts electrostatic emitted equal equation equipotential ergs example field due field H filament flow flux frequency galvanometer Gauss's law given gram gravitational grid heat impedance induced emf ionization ions kinetic energy Kirchhoff's law lines of force magnetic field mass maximum measured metal method motion moving negative charge Ohm's law ohms parallel path plane plate current pole potential difference potential drop R₁ radius resistance resultant rotation self-inductance shown in Fig solenoid solution sphere surface temperature thermocouple torque tube unit vacuum vector velocity voltage voltmeter volts wave wire zero