An infinitely long coaxial cylinder (radius of the inner conductor = a & radius of the outer conductor = b, where b/a = e & dielectric constant = E) is connected to a DC voltage source of emf =V, as shown in figure. Use Poisson's equation to find: a)ED.P&V in the dielectric region between the two conductors. b The surface charge densities on the two conductor surfaces. ) The capacitance per unit meter of this coaxial structure. 1d Use the virtual displacement method to find the force on the inner conductor. %3D %D
An infinitely long coaxial cylinder (radius of the inner conductor = a & radius of the outer conductor = b, where b/a = e & dielectric constant = E) is connected to a DC voltage source of emf =V, as shown in figure. Use Poisson's equation to find: a)ED.P&V in the dielectric region between the two conductors. b The surface charge densities on the two conductor surfaces. ) The capacitance per unit meter of this coaxial structure. 1d Use the virtual displacement method to find the force on the inner conductor. %3D %D
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An infinitely long coaxial cylinder (radius of the inner conductor = a & radius of the
outer conductor = b, where b/a = e & dielectric constant = E) is connected to a DC
voltage source of emf
(a) EDP&V in the dielectric region between the two conductors.
b The surface charge densities on the two conductor surfaces.
The capacitance per unit meter of this coaxial structure.
(d Use the virtual displacement method to find the force on the inner conductor.
%3D
= V, as shown in figure. Use Poisson's equation to find:
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