(a) Find the energy density due to a charged sphere which is located in an empty...

(a) Find the energy density due to a charged sphere which is located in an empty...

(a) Find the energy density due to a charged sphere which is located in an empty space. This sphere is a conductor and has a charge of 3.6 C and a radius of 2.15 m. This energy density should be written in terms of of the distance r from the sphere’s center. (b) Use this energy density to find the system’s total energy. To get full credit, use an integral to solve this problem.

) (a) Find the energy density due to a charged sphere which is located in an...

) (a) Find the energy density due to a charged sphere which is located in an empty space. This sphere is a conductor and has a charge of 3.6 C and a radius of 2.15 m. This energy density should be written in terms of of the distance r from the sphere’s center. (b) Use this energy density to find the system’s total energy. To get full credit, use an integral to solve this problem.

2) (a) Find the energy density due to a charged sphere which is located in an...

2) (a) Find the energy density due to a charged sphere which is located in an empty space. This sphere is a conductor and has a charge of 3.6 C and a radius of 2.15 m. This energy density should be written in terms of of the distance r from the sphere’s center. (b) Use this energy density to find the system’s total energy. To get full credit, use an integral to solve this problem.

A solid spherical no-conductor of radius 14.5cm has a uniform charge density of p=3.70uC/m**3 (a) Find...

A solid spherical no-conductor of radius 14.5cm has a uniform charge density of p=3.70uC/m**3 (a) Find the magnitude of the electric field af a distance of 8.5 cm from the center of the sphere. B-find the electric field at a distance of 21.0 cm from the center of the sphere C-Now consider a solid sphere conductor of same radius with the same total charge as the non conductor sphere in part (a) Find the electric field at the two distance...

A uniformly charged non-conducting sphere of radius 12 cm is centered at x=0. The sphere is...

A uniformly charged non-conducting sphere of radius 12 cm is centered at x=0. The sphere is uniformly charged with a charge density of ρ=+15 μC/m3. Find the work done by an external force when a point charge of +20 nC that is brought from infinity on the x-axis at a distance of 1 cm outside the surface of the sphere. Given the point charge held at its final position, what is the net electric field at x=5 cm on the...

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 solid sphere of nonconducting material has a uniform positive charge density ρ (i.e. positive charge...

A solid sphere of nonconducting material has a uniform positive charge density ρ (i.e. positive charge is spread evenly throughout the volume of the sphere; ρ=Q/Volume). A spherical region in the center of the solid sphere is hollowed out and a smaller hollow sphere with a total positive charge Q (located on its surface) is inserted. The radius of the small hollow sphere R1, the inner radius of the solid sphere is R2, and the outer radius of the solid...

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...

Imagine that one drilled a very small hole with smooth sides straight through the center of...

Imagine that one drilled a very small hole with smooth sides straight through the center of a charged sphere with total charge Q, radius R and uniform charge density p. A charge −? with mass ? is dropped into one end. Ignore effects from friction and gravity. a. (10 points) The Coulomb force on an object of charge −? located inside the sphere a distance ? < ? from the center is due only to the charge that lies within...

10. A spherical conductor of radius R = 1.5cm carries the charge of 45μ, (a) What...

10. A spherical conductor of radius R = 1.5cm carries the charge of 45μ, (a) What is the charge density (ρ) of the sphere? (b) Calculate the electric field at a point r = 0.5cm from the center of the sphere. (c) What is the electric field on the surface of the sphere? 11. Two capacitors C1 and C2 are in series with a voltage V across the series combination. Show that the voltages V1 and V2 across C1 and...