PHYS2424 - SPRING 2000
... Write Maxwell's equations in the most general manner in differential form: ...
... Write Maxwell's equations in the most general manner in differential form: ...
j=1/2
... Classically an electron orbiting a nucleus of charge Ze “sees” the nucleus in orbit around it (a current loop) which produces a field at the electron of Putting I= Ze/T where T is period of orbit (obtained from the classical angular momentum expression L=meωr2 ) we get: ...
... Classically an electron orbiting a nucleus of charge Ze “sees” the nucleus in orbit around it (a current loop) which produces a field at the electron of Putting I= Ze/T where T is period of orbit (obtained from the classical angular momentum expression L=meωr2 ) we get: ...
Magnetic Field Lines
... Looking into one end of a solenoid; if a current travels clockwise, field lines will go in-to the solenoid (), making it the South Pole; if a current travels anticlockwise, field lines go out-of the solenoid (), making it the North Pole. Magnetism and Electron Orbits: The orbits of electrons aroun ...
... Looking into one end of a solenoid; if a current travels clockwise, field lines will go in-to the solenoid (), making it the South Pole; if a current travels anticlockwise, field lines go out-of the solenoid (), making it the North Pole. Magnetism and Electron Orbits: The orbits of electrons aroun ...
