Using the Gausses law find the electric field of a uniformly charged non conducting cylinder with...

5) Using the Gausses law find the electric field of a uniformly charged non conducting cylinder...

5) Using the Gausses law find the electric field of a uniformly charged non conducting cylinder with length L and total charge Q: a)Inside of it b)out side of it

Derive the expression for the electric field inside of a uniformly charged solid (non- conducting) sphere...

Derive the expression for the electric field inside of a uniformly charged solid (non- conducting) sphere of radius R using Gauss’ law. (b) Graph the electric field magnitude as a function of distance from the sphere center (include distances both less than and greater than the sphere’s radius); be sure to adequately label the graph.

1. (a) Define a law of electrostatics in integral form that is used to compute the...

1. (a) Define a law of electrostatics in integral form that is used to compute the electrostatic field E due to a symmetric distribution of charge within a given volume. State the meaning of the terms in the defining equation. (b) A uniformly charged long cylinder of radius a and length L has total charge q inside its volume. What is the direction of the electric field at points outside the cylinder?    Find the electric field inside and outside...

Find the electric field inside and outside a charged conducting ring of radius a *using legendre...

Find the electric field inside and outside a charged conducting ring of radius a *using legendre polynomials

A charge is spread out uniformly over a small non-conducting sphere. The small sphere shares a...

A charge is spread out uniformly over a small non-conducting sphere. The small sphere shares a center with a larger spherical shell with an inner radius of 6 ?? and an outer radius of 12 ??. a) Using Gauss’ Law, what is the magnitude of the charge on the nonconducting sphere if the field from the sphere is measured to be 8200 ?/? when 0.5 ?? from the center? b) What is the surface charge density on the inside of...

A thin rod of length L is non-uniformly charged. The charge density is described by the...

A thin rod of length L is non-uniformly charged. The charge density is described by the expression λ=cx, where c is a constant, λ is the charge per length, and x is the coordinate such that x=0 is one end of the rod and x=L is the other. Find the total charge on the rod and the electric potential at a field point just touching the rod at the x=0 end.

A very long non-conducting cylindrical rod of length L and radius a has a total charge...

A very long non-conducting cylindrical rod of length L and radius a has a total charge – 2q uniformly distributed throughout its volume. It is surrounded by a conducting cylindrical shell of length L, inner radius b, and outer radius c. The cylindrical shell has a total charge +q. Determine the electric field for all regions of space and the charge distribution on the shell.

A uniformly charged, straight filament 6.60 m in length has a total positive charge of 2.00...

A uniformly charged, straight filament 6.60 m in length has a total positive charge of 2.00 µC. An uncharged cardboard cylinder 2.10 cm in length and 10.0 cm in radius surrounds the filament at its center, with the filament as the axis of the cylinder. (a) Using reasonable approximations, find the electric field at the surface of the cylinder. (b) Using reasonable approximations, find the total electric flux through the cylinder.

5. PROBLEM: GUASS'S LAW I Use Guass's law to obtain the electric field for each of...

5. PROBLEM: GUASS'S LAW I Use Guass's law to obtain the electric field for each of the following: a) A point charge q. b) An insulatin sphere of radius R and charge Q distributed uniformly throughout the volume. Here you want to find the electric field both inside and outside the sphere. Sketch the field strength as a function of distance from the center of the sphere.

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...