Consider a long cylindrical charge distribution of radius R, with charge density p = a –...

Consider a very long cylindrical charge distribution of radius R with a uniform charge density rho....

Consider a very long cylindrical charge distribution of radius R with a uniform charge density rho. Calculate the magnitude of the electric field at distance r<R from the axis of this distribution. Derive using gauss law Show all work please

A cylindrical charge that is infinitely long has a charge distribution of radius R = 12.0cm...

A cylindrical charge that is infinitely long has a charge distribution of radius R = 12.0cm and has a uniform volume charge density of p = 325 uC/m3. A) Use Gauss's Law to determine the expression for the electric field for 0 ≤ r ≤ R. INCLUDE A SKETCH B) Using the expression from part A, calculate the magnitude of the electric field at r = 6.0cm C) Use Gauss's Law to determine the expression for the electric field for...

A solid spherical charge insulator of radius R carries a uniform charge density of p. A)...

A solid spherical charge insulator of radius R carries a uniform charge density of p. A) Derive an equation for the electric field as a function of the radical position inside the sphere using electric flux and a Gaussian surface of variable radius. B) Derive an equation for the electric field as a function of the radial position outside the sphere. C) Multiply your results from parts A and B with some test charge, are these results consistent with coulombs...

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.

An insulating sphere of radius a has charge density p(r) = P0r^2, where P0 is a...

An insulating sphere of radius a has charge density p(r) = P0r^2, where P0 is a constant with appropriate units. The total charge on the sphere is -3q. Concentric with the insulating sphere is a conducting spherical shell with inner radius b > a and utter radius. The total charge on the shell is +2q. Determine a. the magnitude of the electric field at the following locations: (i) r < a, (ii) a < r < b, (iii) b <...

Charge is distributed uniformly throughout the volume of an infinitely long cylinder of radius R =...

Charge is distributed uniformly throughout the volume of an infinitely long cylinder of radius R = 1.00×10-2m. The charge density is 4.00×10-2C/ m3. What is the electric field at r = 5.00×10-3m? What is the electric field at r = 2.00×10-2m?

A non-linear spherical charge distribution carries a density = ar^2 in the region r<a. If a...

A non-linear spherical charge distribution carries a density = ar^2 in the region r<a. If a concentric metal shell with radii b and c surrounds the inner charge, calculate the electric field in the four regions starting with region 1, inside the radius a and ending with region 4, outside the concentric spheres.

A solid sphere of radius R has a uniform volumetric charge density rho = −3C /...

A solid sphere of radius R has a uniform volumetric charge density rho = −3C / 2πR ^ 3. Calculate the electric field inside and outside the sphere.

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge...

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge density ρ = rρs/R, where ρs is a constant and    r is the distance from the centre of the sphere.    Show that:    (a) the total charge on the sphere is Q = π ρsR3 and    (b) the magnitude of the electric field inside the sphere is given by the    equation        E = (Q r2 / 4π ε0R4)

A solid nonconducting sphere of radius R = 5.82 cm has a nonuniform charge distribution of...

A solid nonconducting sphere of radius R = 5.82 cm has a nonuniform charge distribution of volume charge density ρ = (13.3 pC/m3)r/R, where r is radial distance from the sphere's center. (a) What is the sphere's total charge? 8.23e-15 C (b) What is the magnitude E of the electric field at r = 0? (Use any variable or symbol stated above along with the following as necessary: ε0.) E = 0     (c) What is the magnitude E of...