A spherical shell, with inside radius R1 and outside radius R2, is uniformly magnetized in the...

A spherical shell with inner radius r1 and outer radius r2 is uniformly magnetized. Use Poisson’s...

A spherical shell with inner radius r1 and outer radius r2 is uniformly magnetized. Use Poisson’s relation to find the magnetic field B inside the inner surface of the shell, outside the outer surface of the shell and within the magnetized material of the shell. Use SI units.

A spherical shell with inner radius r1 and outer radius r2 is uniformly magnetized. Use Poisson’s...

A spherical shell with inner radius r1 and outer radius r2 is uniformly magnetized. Use Poisson’s relation to find the magnetic field B inside the inner surface of the shell, outside the outer surface of the shell and within the magnetized material of the shell. Use SI units.

a magnetized thick spherical shell of inner radius a and outer radius b, has constant magnetization...

a magnetized thick spherical shell of inner radius a and outer radius b, has constant magnetization M(vector) = Mo z^ find Kb on outer and inner surfaces

A spherical dielectric shell has inner radius r1, outer radius r2, and dielectric constant k. A...

A spherical dielectric shell has inner radius r1, outer radius r2, and dielectric constant k. A charge Q is placed at the center of the sphere. (a) Determine the polarization P in the dielectric shell. (b) Find the bound volume charge density, ρb, inside the dielectric shell. (c) Find the bound surface charge density, σb, at r = r1 and r = r2.

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?

A thin spherical shell of radius R1 = 3.00 cm is concentric with another larger thin...

A thin spherical shell of radius R1 = 3.00 cm is concentric with another larger thin spherical shell of radius R2 = 5.00 cm. Both shells are made of insulating material. The smallest shell has a charge q1 = +6.00 nC distributed evenly on its surface, and the largest one has a charge q2 = -9.00 nC evenly distributed on its surface ficie. Consider the electric potential equal to zero at an in- finite of both shells. a) What is...

Suppose a conducting sphere, radius r2, has a spherical cavity of radius r1 centered at the...

Suppose a conducting sphere, radius r2, has a spherical cavity of radius r1 centered at the sphere's center. At the center of the sphere is a point charge -4Q. Assuming the conducting sphere has a net charge +Q determine the electric field,magnitude and direction, in the following situations: a) From r = 0 to r = r1. b) From r = r1 to r = r2. c) Outside of r = r2 d) find the surface charge density (charge per...

A spherical, non-conducting shell of inner radius r1 = 7 cm and outer radius r2= 16...

A spherical, non-conducting shell of inner radius r1 = 7 cm and outer radius r2= 16 cm carries a total charge Q = 18 nC distributed uniformly throughout the volume of the shell. What is the magnitude of the electric field at a distance r = 11 cm from the center of the shell? (k = 1/4πε0 = 8.99 × 109 N.m2/C2)

Consider two concentric spherical shells with different radii, namely one is inside the other. The spherical...

Consider two concentric spherical shells with different radii, namely one is inside the other. The spherical shell inside has radius R1 = 7.00 cm and charge q1 = +3.00×10^-6 C; the spherical shell outside has radius R2 = 17.0 cm and charge q2 = −5.00×10^-6 C. For both shells charges are distributed uniformly over their surfaces. Assume that V = 0 at large distances from both shells. A) Find the electric potential of the two shells at the distance r...

A Charged Spherical Shell and a Point Charge. A spherical conducting shell of radius 1.21 [m],...

A Charged Spherical Shell and a Point Charge. A spherical conducting shell of radius 1.21 [m], carries charge 4.10×10-6 [C], distributed uniformly over its surface. At the center of the shell there is a point charge 3.90×10-9 [C]. Let Pi and Po be points inside and outside the spherical shell, respectively. The distance of Pi from the point charge is 1.06 [m], whereas is Po is 5.27 [m] away from the point charge. Calculate the electrostatic potential at a Pi...