270 likes | 303 Views
Electricity and Magnetism. Physics 208. Dr. Tatiana Erukhimova. Lecture 23. The Magnetic Field. The magnitude of the force. The force on a charge q moving with a velocity. left-hand rule. right-hand rule. Motion in magnetic field. 1) Uniform ,. 2) Uniform ,.
E N D
Electricity and Magnetism Physics 208 Dr. Tatiana Erukhimova Lecture 23
The magnitude of the force The force on a charge q moving with a velocity
left-hand rule right-hand rule
Motion in magnetic field 1) Uniform , 2) Uniform , 3) Nonuniform
The angular velocity (cyclotron frequency ) does not depend on velocity! The force is always perpendicular to velocity, so it cannot change the magnitude of the velocity, only its direction. The work done by the magnetic force is zero! Motion of a charged particle under the action of a magnetic field alone is always motion with constant speed.
Electron motion in a microwave oven A magnetron in a microwave oven emits electromagnetic waves with frequency f=2450 MHz. What magnetic field strength is required for electrons to move in circular paths with this frequency?
Gauss’s Law The total flux of electric field out of any closed surface is equal to the charge contained inside the surface divided by .
Conductors and insulators Charges reside at the surface of the conductor + + + + + + + + Conductor + + E=0 + + + + +
Electric field of a ball of charge Q Electric field outside of a charged sphere is exactly the same as the electric field produced by a point charge, located at the center of the sphere, with charge equal to the total charge on the sphere.
Insulating sphere with charge Q uniformly spread throughout the volume A E A r
Conducting sphere with charge Q A E V r A r
A Charged, Thin Sheet of Insulating Material + + + + + + + + + + +
The capacitance is: Spherical capacitor; Cylindrical capacitor
If the capacitors were initially uncharged, Capacitors in series: Capacitors in parallel:
Current Density Consider current flowing in a homogeneous wire with cross sectional area A. for j =Const only!
For steady state situation • Kirchhoff’s junction rule: The algebraic sum of the currents into any junction is zero. • Kirchhoff’s loop rule: The algebraic sum of the potential differences in any loop must be zero.
Resistors in series: Resistors in parallel: