A sphere of radius A, is charged with a volume charge density that linearly increases from...

A total charge Q is distributed uniformly throughout a sphere of radius a. The sphere is...

A total charge Q is distributed uniformly throughout a sphere of radius a. The sphere is then rotated with constant angular speed w about a diameter. Assume the charge distribution is unaffected by the rotation, and find J(volume current density) everywhere within the sphere. (Express it in spherical coordinates with the polar axis coinciding with the axis of rotation.) Find the total current passing through a semicircle of radius a fixed in space with its base on the axis of...

Consider a charged spherical shell of radius a having a constant surface charge density σ0, rotating...

Consider a charged spherical shell of radius a having a constant surface charge density σ0, rotating about the z-axis with angular frequency ω. (a) Find the electric and magnetic fields outside of the shell. (b) What is the electric pressure on the surface charges? What is the magnetic pressure due to the surface currents? (c) Find the Poynting vector outside of the shell. (d) What is the angular momentum density outside of the shell? What is the total angular momentum...

A solid sphere of radius 50.0 cm has a charge of 12.0 uC.  If the charge density...

A solid sphere of radius 50.0 cm has a charge of 12.0 uC.  If the charge density varies with radial distance according to the equation p=kr, where k is a constant: A) find the electric field at 30.0 cm from the sphere's center. B) find the electric field at 60.0 cm from the sphere's center.

please solve the following :- A. A sphere of radius 3 cm, carries a volume charge...

please solve the following :- A. A sphere of radius 3 cm, carries a volume charge density of 5 − ??2, where d is constant. Find the value of d so the Electric field vector is zero outside the sphere? B.Two conducting spheres of radius 10 cm each. The center-to-center distance between the two spheres is 2 meters. Each sphere carries a charge of 16μC. Find the potential in the middle between the two spheres. C. Two conducting, concentric spheres...

A wire of radius R carries a non-uniform current described by the current density J =...

A wire of radius R carries a non-uniform current described by the current density J = A r^3 where r is the radial distance from the center of the wire 1 write an expression for the total current that flows through the wire in terms of the parameters A, R, and constants. 2) What is the magnetic field B in the region r < R. Be sure to specify the direction of the field. 3) A positive charge is moving...

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge...

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge density ρ = rρs/R, where ρs is a constant and    r is the distance from the centre of the sphere.    Show that:    (a) the total charge on the sphere is Q = π ρsR3 and    (b) the magnitude of the electric field inside the sphere is given by the    equation        E = (Q r2 / 4π ε0R4)

A solid, nonconducting sphere of radius R = 6.0cm is charged uniformly with an electrical charge...

A solid, nonconducting sphere of radius R = 6.0cm is charged uniformly with an electrical charge of q = 12µC. it is enclosed by a thin conducting concentric spherical shell of inner radius R, the net charge on the shell is zero. a) find the magnitude of the electrical field E1  inside the sphere (r < R) at the distance r1 = 3.0 cm from the center. b) find the magnitude of the electric field E2 outside the shell at the...

A nonconducting solid sphere of radius 9.10 cm has a uniform volume charge density. The magnitude...

A nonconducting solid sphere of radius 9.10 cm has a uniform volume charge density. The magnitude of the electric field at 18.2 cm from the sphere's center is 1.77  103 N/C. (a) What is the sphere's volume charge density? µC/m3 (b) Find the magnitude of the electric field at a distance of 5.00 cm from the sphere's center.

The current density inside a long, solid, cylindrical wire of radius a = 3.6 mm is...

The current density inside a long, solid, cylindrical wire of radius a = 3.6 mm is in the direction of the central axis and its magnitude varies linearly with radial distance r from the axis according to J = J0r/a, where J0 = 420 A/m2. Find the magnitude of the magnetic field at a distance (a) r=0, (b) r = 2.0 mm and (c) r=3.6 mm from the center.

The current density inside a long, solid, cylindrical wire of radius a = 2.3 mm is...

The current density inside a long, solid, cylindrical wire of radius a = 2.3 mm is in the direction of the central axis and its magnitude varies linearly with radial distance r from the axis according to J = J0r/a, where J0 = 380 A/m2. Find the magnitude of the magnetic field at a distance (a) r=0, (b) r = 1.6 mm and (c) r=2.3 mm from the center.