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

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

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

Consider a long cylindrical charge distribution of radius R, with charge density p = a – b r (with a and b positive). Calculate the electric field for: r > R

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?

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 = 12 cm. The volume charge density ρ is 3.6 nC/m3. Find the magnitude of the electric field E (a) inside the cylinder, a distance r = 6.6 cm from the cylinder axis, and (b) outside the cylinder, a distance r = 24 cm from the cylinder axis.

Solid cylindrical wire of infinitely length has radius R. I, a current, is flowing in the...

Solid cylindrical wire of infinitely length has radius R. I, a current, is flowing in the z direction. Through the cross section of the wire, the current flow is uniformly distributed. 1. Find the current density vector J in the wire. Show your steps and be clear on the formulas. 2. What's the magnitude of the magnetic field at points outside the wire? Use Ampere’s Law. 3. What's the magnitude of the magnetic field at points inside the wire? Again,...

A) A very long hollow cylinder has a 15 cm radius and has positive charge spread...

A) A very long hollow cylinder has a 15 cm radius and has positive charge spread evenly over its surface, amounting to a linear charge density of 7 nC/m. Apply Gauss's Law to determine the electric field at r =20 cm away from the center, in units of N/C. As usual, do not include the unit in your answer. B) A very long hollow cylinder has a 15 cm radius and has positive charge spread evenly over its surface, amounting...

The Van de Graaff generator has a spherical thin conducting shell with a radius of 15....

The Van de Graaff generator has a spherical thin conducting shell with a radius of 15. cm and a surface charge density 2.1 x 10-3 μC/cm2 . a. Determine the total charge on the surface of the Van de Graaff [6.02 μC] b. Use Gauss's Law to determine the magnitude and direction of the electric field inside the dome at a distance 6. cm from the center. Sketch and label the electric field, Gaussian surface, etc. You must use Gauss's...

A solid spherical nonconductor with a radius of 0.25m contains an interior charge density (Q/V) of...

A solid spherical nonconductor with a radius of 0.25m contains an interior charge density (Q/V) of 1.00*10-6 r3 C/m3 where r is the distance from the center of the sphere. a) Determine an expression for the total charge within a radius r less than or equal to 0.25m b) Determine an expression for the total charge contained within the nonconducting sphere c) Using Gauss' Law find an expression for the magnitude of the electric field within the sphere as a...

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...

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...