CR E108 A cylindrical ring of Infinite Length, with axis. Z'Z, Consusting of a Teylander (C) R₁ = R Surrounded by Raz 2h. This of co rung a of radius & Cylunder (C₂) Carries a Volume of radius. Load constant density fro distributed in the sp sprice between the surfaces of the two glanders and a surface load distributed on the external surface of of uniform density σ >0 Cylinder (Ca) with f = 20 3R 570 the a) By applying Gauss theorem, determine the electrostatic field FCM) at any pount M in space from the axi's 7'7, at a dustance OM zr for r≤ R₁, Rx = = = B₂, Ba 17, B₂ b) Deduce the Potential \(r) for r< R₁, R₁ = rs R₂, We assume that for rzo ( on the ry, Ba 7'7 axes, the potential NC0? = 10). Z R₁ σ ρ
CR E108 A cylindrical ring of Infinite Length, with axis. Z'Z, Consusting of a Teylander (C) R₁ = R Surrounded by Raz 2h. This of co rung a of radius & Cylunder (C₂) Carries a Volume of radius. Load constant density fro distributed in the sp sprice between the surfaces of the two glanders and a surface load distributed on the external surface of of uniform density σ >0 Cylinder (Ca) with f = 20 3R 570 the a) By applying Gauss theorem, determine the electrostatic field FCM) at any pount M in space from the axi's 7'7, at a dustance OM zr for r≤ R₁, Rx = = = B₂, Ba 17, B₂ b) Deduce the Potential \(r) for r< R₁, R₁ = rs R₂, We assume that for rzo ( on the ry, Ba 7'7 axes, the potential NC0? = 10). Z R₁ σ ρ
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