a sphere shell of radius R is at a potential V(thetha) = 1+cos(thetha). use laplaces equation...

The electrostatic potential on the surface of a sphere of radius a is given by V(theta)=V0cos2(theta)....

The electrostatic potential on the surface of a sphere of radius a is given by V(theta)=V0cos2(theta). Solve the boundary=value problem for the sphere and find the electrostatic potential everywhere inside the sphere. Note: cos is squared.

The potential at the surface of a sphere (radius R) is given by Vo=Kcos3D, Where D...

The potential at the surface of a sphere (radius R) is given by Vo=Kcos3D, Where D is theta,K is a constant. Find the potential inside and outside the sphere, as well as the surface charge density s(D) on the sphere.(Assume there is no charge inside or outside the sphere).

A surface charge density sigma(theta)=[sigma_o(cos(theta))] is glued to the surface of a spherical shell of radius...

A surface charge density sigma(theta)=[sigma_o(cos(theta))] is glued to the surface of a spherical shell of radius R. There is a vacuum with no charges both inside and outside of the shell. Calculate the electrostatic potential and the electric field both inside and outside the spherical shell. (the "_" is a subscript in sigma_o).

A surface charge density sigma(theta)=[sigma_o(cos(theta))] is glued to the surface of a spherical shell of radius...

A surface charge density sigma(theta)=[sigma_o(cos(theta))] is glued to the surface of a spherical shell of radius R. There is a vacuum with no charges both inside and outside of the shell. Calculate the electrostatic potential and electric field both inside and outside of the spherical shell. Side note: sigma_o is sigma subscript o.

A plastic sphere with a radius of 4 cm is surrounded by a concentric metal shell...

A plastic sphere with a radius of 4 cm is surrounded by a concentric metal shell of 7 cm inside radius, and 10 cm outside radius. The outer shell has a net charge of +5 Coulombs, while the plastic sphere inside has a uniformly distributed charge of -10 Coulombs. What is the electric potential relative to infinity at a distance 15 [cm] from the center of the plastic sphere i.e. outside the conducting shell, and why? 2b. What net charge...

26. A spherical shell of radius R carries a surface charge σ = σ0 Sin[θ]. Find...

26. A spherical shell of radius R carries a surface charge σ = σ0 Sin[θ]. Find the potential inside and outside the sphere, calculating the coefficients explicitly up to A6 and B6.

Make a side by side comparison for the solutions of example 3.9 (the potential inside and...

Make a side by side comparison for the solutions of example 3.9 (the potential inside and outside a sphere with charge density ? = ? cos ? glued on its surface) and example 4.2 (the potential inside and outside a uniformly polarized sphere). Compare them according to: a) The given information b) The equation to be solved (Poisson’s or Laplace’s)c) The boundary conditions d) Applying the boundary conditions e) Final solution Example 3.9. A specified charge density u0(0) is glued...

A thin, uniformly charged spherical shell has a potential of 727 V on its surface. Outside...

A thin, uniformly charged spherical shell has a potential of 727 V on its surface. Outside the sphere, at a radial distance of 20.0 cm from this surface, the potential is 403 V. (1) Calculate the radius of the sphere. (2) Determine the total charge on the sphere (3) What is the electric potential inside the sphere at a radius of 3.0 cm (4) Calculate the magnitude of the electric field at the surface of the sphere. (5) If an...

Immediately outside a conducting sphere of unknown charge Q and radius R the electric potential is...

Immediately outside a conducting sphere of unknown charge Q and radius R the electric potential is 190 V, and 10.0 cm further from the sphere, the potential is 130 V. (a) Determine the radius R of the sphere (in cm). cm (b) Determine the charge Q on the sphere (in nC). nC (c) The electric potential immediately outside another charged conducting sphere is 220 V, and 10.0 cm farther from the center the magnitude of the electric field is 410...

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...