A short circular cylinder of radius R and length L carries a "frozen-in" uniform magnetization M...

A sphere of radius R carries an uniform polarization P and an uniform magnetization M (not...

A sphere of radius R carries an uniform polarization P and an uniform magnetization M (not necessarily in the same direction). What are the magnetic fields (B) and electric fields (E) inside and outside the sphere.

An infinitely long cylinder of radius a oriented along the z-axis has uniform magnetization M =...

An infinitely long cylinder of radius a oriented along the z-axis has uniform magnetization M = M?. Determine a) the volume magnetization current Jm, b) the surface magnetization current Jms, c) the B-field inside and outside the cylinder, and d) the H-field inside and outside the cylinder.

A circular cylinder with a radius R of 1 cm and a height H of 2...

A circular cylinder with a radius R of 1 cm and a height H of 2 cm carries a charge density of pv = h R^2 uC/cm^3 (h is a point on the z-axis). The cylinder is then placed on the xy plane with its axis the same as the z-axis. Find the electric field intensity E and and the electric potential V on point A on z-axis 2 cm from the top of the cylinder.

Consider a uniformly magnetized infinite circular cylinder, of radius S0, with its axis coinciding with the...

Consider a uniformly magnetized infinite circular cylinder, of radius S0, with its axis coinciding with the z-axis. The magnetization inside the cylinder is M = M0z ?. i) Find H, B, JB, and KB everywhere. ii) What type of magnetic material is this and why?

Find the dipole moment of a thin cylindrical magnet of radius r and length l with...

Find the dipole moment of a thin cylindrical magnet of radius r and length l with uniform magnetization M along its axis.

Consider a long cylinder of magnetic material with radius R. The magnetization of the material is...

Consider a long cylinder of magnetic material with radius R. The magnetization of the material is given by mos2 where s is the radial distance and is aligned with the cylinders long axis (i.e. z hat direction), where mo is a constant.  Determine the bound currents used to describe this magnetization. Show the total bound current is zero. Use the currents to find the magnetic field inside and outside the magnetic material. Plot |B| as a function of s.

10. A circular cylinder with a radius R of 1 cm and a height H of...

10. A circular cylinder with a radius R of 1 cm and a height H of 2 cm carries a charge density of ρV = H r2 sin φ µC/cm3 (r is a point on the z-axis, φ is an azimuthal angle). The cylinder is then placed on the xy plane with its axis the same as the z-axis. Find the electric field intensity E and the electric potential V on point A on z-axis 2 cm from the top...

The density of a cylinder of radius R and length l varies linearly from the central...

The density of a cylinder of radius R and length l varies linearly from the central axis where ρ1=500 kg/m3 to the value ρ2=3ρ1. If R=.05 m and l= .1 m, find: a. The average density of the cylinder over the radius. b. The average density over its volume. c. the moment of inertia of the cylinder about its central axis.

A long cylindrical wire of radius R, made from a linear material with a magnetic susceptibility...

A long cylindrical wire of radius R, made from a linear material with a magnetic susceptibility of Xm , carries a volume current density J = ks ẑ along the z-axis. For all below please include magnitude and direction: (a) Find the auxiliary field H, the magnetic field B, and the magnetization M inside the wire (b) Find the auxiliary field H, the magnetic field B, and the magnetization M outside the wire (c) Find the bound current densities Jb...

2. A circular ring with a radius R of 1 cm carries a charge density of...

2. A circular ring with a radius R of 1 cm carries a charge density of ?L = R sin ? (? is an azimuthal angle) µC/cm. The ring is then placed on the xy plane with its axis the same as the z-axis. Find the electric field intensity E and the electric potential V on point A on z-axis 2 cm from the xy plane.