When a charge Is placed on a metal sphere, it ends up in equilibrium at the...
In the figure below, a solld sphere, of radlus a1.70 cm is concentric with a spherical conducting shell of Inner radlus b 2.00a and outer radus c distribuled uniformly Lhrough the sphere; he shell has a el charge of 42-- 2.40a. The sphere has a net charge +6.00 fC which ls (a) What is the magnitude of the electric field at radial distancer 0? N/C (b) What is the magnitude of the electric fleld at radial distancer-af4? N/C (c) What...
please answer question # 5
6. A charge of -27 HC is distributed uniformly throughout a spherical volume of radis 13.0 cm Determine the electric field (in N/C) due to this charge at the following distances from the center of the sphere. (Hint: you need to determine the radial component of the electric field.) (a) 4.0 cm (b) 10.0 cnm (c) 26.0 cm 7. A charge of -20 C is distributed uiformly over the surface of a spherica conductor of...
A charge of -20 HC is distributed uniformly over the surface of a spherical conductor of radius 12.0 cm. Determine the electric field (in N/C) due to this charge at the following distances from the center of the sphere. (Enter the radial component of the electric field.) (a) 7.0 cm N/C) (b) 9.0 cm Nc) N/C (c 22.0 cm
The figure below shows a solid metal sphere at the centre of a hollow metal sphere. The radius of the solid metal sphere Is 4.53cm, the inner radius of the hollow sphere is 9.2cm, and the outer radlus of the hollow sphere is 13.2cm. The electric field shown on the diagram inside the hollow sphere, at a distance of 7.83cm from the centre of the solid metal sphere, has magnitude of 14570N/C. The strength of the electric field at a...
A spherical metal (conductor) has a spherical cavity in side. There is a single point charge Q at the cavity center. The total charge on the meta is 0 (a) Describe how the charge is distributed on the E=? sphere. Would the surface charge density be u form at each surface? (b) Draw the electric field lines. c) Find the electric field for a point outside the metal. Express it in terms of r, the distance of the point in...
A solid conducting sphere of radius 2 cm has a charge of 8 μC. A conducting spherical shell of inner radius 4 cm and outer radius 5 cm is concentric with the solid sphere and has a charge of -4 μC Find: a) The electric field at r = 1 cm from the center of this charge configuration. b) The electric field at r = 3 cm from the center of this charge configuration c) The electric field at r =...
The figure shows a hallow metal sphere with inner radius 2.10 cm and outer radius 13.1 cm and a point charge at the center. The inner surface of the hollow sphere has a total charge of 8.70 nC and the outer surface has a total charge of-22-9 nc Calculate the value of the charge at the center of the metal sphere. Answer Calculate the magn tude electric field a distance 24.0 cm from the center of the sphere Answer: fthe...
A metal sphere with radius ra is supported on an insulating stand at the center of a hollow, metal, spherical shell with radius rb. There is charge +q on the inner sphere and charge −q on the outer spherical shell. Take V to be zero when r is infinite. Part H Suppose the charge on the outer sphere is not -q but a negative charge of different magnitude, say -Q. Find the electric field at any point between the spheres ( ra...
A metal sphere with radius ra = 1.30 cm is supported on an insulating stand at the center of a hollow, metal, spherical shell with radius rb = 9.10 cm . Charge +q is put on the inner sphere and charge −q on the outer spherical shell. The magnitude of q is chosen to make the potential difference between the spheres 440 V , with the inner sphere at higher potential. A - Calculate q. q-....................................C B - Are the...
Problem 4-A point charge q 9.0 nC is placed inside a spherical shell made of metal, of inner radius a 3.0 m and outer radius b -5.0 m, that is charged with qp-6.0 nC. Find the electric field (magnitude and direction) at a distance (a) r 1.5 m (b) r2 4.0 m from the center. (c) Find the charges on the inner and outer surfaces of the spherical shell