How Is Electric Field Calculated for a Uniformly Charged Cylinder?

AI Thread Summary
To calculate the electric field for a uniformly charged cylinder, apply Gauss's law, which states that the electric flux through a closed surface equals the charge enclosed divided by the permittivity of free space. The charge density is given as ρ = 18 C/m³, and for a cylinder of radius R = 13 cm, the total charge can be expressed as Q = ρV, where V is the volume of the cylinder. At a distance r = 32 cm from the axis, the electric field can be derived using the relationship E = ρh / ε, where h represents the height of the cylinder. The symmetry of the cylinder allows for simplification of the calculations, particularly by canceling out components along the axis. Understanding the electric field of an infinite line of charge can also provide useful insights for this problem.
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Homework Statement



Consider a long cylindrical charge distribution of radius R = 13 cm with a uniform charge density of ρ = 18 C/m3. Find the electric field at a distance r = 32 cm from the axis.



Homework Equations


ΦE = EA = qin/ε0



The Attempt at a Solution


My problem here is that I don't know how to solve it given uniform charge density. I can solve Gauss's law for a cylinder down to E = 2K(λ/r), but as I don't have a length, linear charge density doesn't help me much. So I'm stuck here, and any help would be great.

Thanks!
Ian
 
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Apply Gauss' law: when you are a long way from the collection of charge, the field is the same as if all the charge were concentrated.

Do you know how to do it for a line of charge?

Q=ρV = ρAh
That help?
 
Φ = EA = Qin / ε

Qin = ρV = ρAh

EA = ρAh / ε

E = ρh / ε

Then I get stuck with h...
 
The electric field due to a short length dz of the cylinder will be the proportional amount of charge between z and z+dz and inversly proportional to the distance to the length. Use symmetry to cancel the z components and sum all the contributions along the entire cylinder.

You will have an example of an infinite line of charge someplace in your course notes.

Also see:
http://hyperphysics.phy-astr.gsu.edu/hbase/electric/gaulaw.html
 
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