Explanation Given: The charge density ρ v of parallel plate capacitor is ρ o sin ( π z 2 d ) . Concept used: The Laplacian operator ∇ 2 is obtained from divergence of a gradient for potential V and is known as Poisson’s equation. ∇ 2 V = − ρ v ε The Laplace equation for cylindrical coordinates is shown below. ∇ 2 V cylindrical = 1 ρ ∂ ∂ ρ ( ρ ∂ V ∂ ρ ) + 1 ρ 2 ( ∂ 2 V ∂ ϕ 2 ) + ∂ 2 V ∂ z 2 Calculation: The electric potential V is only a function of z . Substitute ρ o sin ( π z 2 d ) for ρ v in the Poisson equation. ∇ 2 V = − 1 ε ⋅ ρ o sin ( π z 2 d ) = − ρ o ε sin ( π z 2 d ) Equate Laplace equation and Poisson’s equation. ∂ 2 V ∂ z 2 = − ρ o ε sin ( π z 2 d ) Integrate the above equation. ∫ ∂ 2 V ∂ z 2 d z = − ρ o ε ∫ sin ( π z 2 d ) d z ∂ V ∂ z = − ρ o ε ( − cos ( π z 2 d ) ) 1 ( π 2 d ) + C = 2 d ρ o π ε cos ( π z 2 d ) + C Integrate the above equation. ∫ ∂ V ∂ z d z = ∫ ( 2 d ρ o π ε cos ( π z 2 d ) + C ) d z V ( z ) = 2 d ρ o π ε sin ( π z 2 d ) 1 π 2 d + C z + D = 2 d ρ o π ε ⋅ 2 d π sin ( π z 2 d ) + C z + D = 4 d 2 ρ o π 2 ε sin ( π z 2 d ) + C z + D From the boundary conditions, the constants C and D are obtained and these boundary conditions are V ( 0 ) = 0 and V ( d ) = V d . Substitute 0 for V ( z ) and 0 for z in the expression of V . 0 = 4 d 2 ρ o π 2 ε sin ( 0 ) + 0 + D D = 0 Substitute V d for V ( z ) , 0 for D and d for z in the expression of V . V d = 4 d 2 ρ o π 2 ε sin ( π d 2 d ) + C d + 0 C d = V d − 4 d 2 ρ o π 2 ε C = V d − 4 d 2 ρ o π 2 ε d = V d d − 4 d ρ o π 2 ε So, the expression for potential V can be written as, V ( z ) = 4 d 2 ρ o π 2 ε sin ( π z 2 d ) + ( V d d − 4 d ρ o π 2 ε ) z + 0 = 4 d 2 ρ o π 2 ε sin ( π z 2 d ) + ( V d d − 4 d ρ o π 2 ε ) z Therefore, the expression for potential V is 4 d 2 ρ o π 2 ε sin ( π z 2 d ) + ( V d d − 4 d ρ o π 2 ε ) z

Fundamentals of Electromagnetics with Engineering Applications

5th Edition

ISBN: 9780471263555

Author: Stuart M. Wentworth

Publisher: John Wiley & Sons

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Chapter 2, Problem 2.69P

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The new expression for potential V and electric field E . Also, the surface charge density ρs on each plate.

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Chapter 2, Problem 2.70P

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Fundamentals of Electromagnetics with Engineering Applications

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