1) A spherical shell with a radius of 0.500 m is uniformly charged and generates an...

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...

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...

An amount of charge Q is distributed uniformly inside a spherical shell of inner radius a...

An amount of charge Q is distributed uniformly inside a spherical shell of inner radius a and outer radius b. Use Gauss's Law to calculate the electric field at a distance r from the center of the shell. Consider the cases r<a, a<r<b, and r<b.

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...

A) A 1 nano Coulomb spherical charge has a radius of 10 centimeters. The charge is...

A) A 1 nano Coulomb spherical charge has a radius of 10 centimeters. The charge is uniformly distributed throughout the volume of the sphere.   Find the electric flux through a spherical gaussian surface centered on the charge with a radius of 1 meter. Answer in units of (N*m^2)/C. B) Same as part A, but let the Gaussian surface be a 1 meter cube centered on the charge. C) What is the strength of the E field on the surface of...

A point charge + 5.0 ?C is at the center of an electrically neutral spherical shell...

A point charge + 5.0 ?C is at the center of an electrically neutral spherical shell with a radius of 12.0 cm. (i) What is the total electric flux about the sphere shell? (ii) What is the magnitude of the electric field at a distance 0.30 m from the center?

Consider a spherical uniformly charged cloud of radius 100 m. The center of the cloud is...

Consider a spherical uniformly charged cloud of radius 100 m. The center of the cloud is at a distance of 3 km from the ground. The electric field near the cloud (produced by the cloud itself) is 1 MV/m. Find the induced surface charge density on the ground under the center of the cloud (in nC/m2). Assume that the charge on the cloud is negative. Expected answer is 19.6 nC/m^2 I am unsure of how to start this.

A thin spherical shell of radius 5.35 m has a total charge of 7.65 C distributed...

A thin spherical shell of radius 5.35 m has a total charge of 7.65 C distributed uniformly over its surface. Find the electric field 10.6 m from the center of the shell. The Coulomb constant is 8.98755

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)

A thin-walled metal spherical shell of radius a = 8 m has a charge qa =...

A thin-walled metal spherical shell of radius a = 8 m has a charge qa = 23 C. Concentric with it is a thin-walled metal spherical shell of radius b = 7a and charge qb = 27 C. Find the electric field at points a distance r from the common center, where (a) r = 2.4 m, (b) r = 16 m, and (c) r = 84.0 m.