Explanation Given information: A volume charge of constant density ρ v = ρ 0 exists within the region − ∞ < x < ∞ , − ∞ < y < ∞ and − d 2 < z < d 2 in free space. Concept used: Here, we can see that the volume charge is z -directed everywhere and uniform with x and y The flux density and field has to be evaluated in two regions − inside the charge and outside the charge. The concept is to assume a Gaussian surface and apply Gauss's law as follows: Gauss's law is used here according to which the net flux passing through a surface S is equal to the total charge enclosed by that surface. Mathematically it is given as, Q = ∮ S D . d S Where, D is the electric flux density. dS is differential surface element. We have been given a volume charge distribution hence charge enclosed can be expressed in terms of the volume charge density as, Q = ∭ V ρ v d V Given Electric field E, the electric flux density can be evaluated as, D = ε 0 E ..... Free space condition Calculation: Electric field due to the charge density, inside the charge is estimated as follows. A Gaussian surface is considered which encloses a rectangular region defined by − 1 < x < 1 , − 1 < y < 1 , and | z | < d / 2 . There are three surfaces for flux flow, but we need to consider the surface which is in the direction of the flux density D. Here, the flux density is z -directed. Hence outward flux is only through the surfaces ± z . This can be calculated as, ϕ 1 = ∮ S D . d S = ∫ − 1 1 ∫ − 1 1 D z d x d y + ∫ − 1 1 ∫ − 1 1 D z d x d y = 2 ∫ − 1 1 ∫ − 1 1 D z d x d y Charge enclosed, Q e n c = ∫ − z z ∫ − 1 1 &

9th Edition

ISBN: 9780078028151

Author: Hayt, William H. (william Hart), Jr, BUCK, John A.

Publisher: Mcgraw-hill Education,

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Chapter 3, Problem 3.6P

To determine

The value ofD and E everywhere.

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Chapter 3, Problem 3.5P

Chapter 3, Problem 3.7P

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Chapter 3 Solutions

Engineering Electromagnetics

Ch. 3 - Prob. 3.1P Ch. 3 - An electric field in space is E=(5z2/C0)azV/m....Ch. 3 - Consider an electric dipole in free space,...Ch. 3 - An electric field in free space is E=(5z3/0)z V/m....Ch. 3 - A volume charge distribution in free space is...Ch. 3 - Prob. 3.6P Ch. 3 - Prob. 3.7P Ch. 3 - Use Gauss, law in integral form to show that an...Ch. 3 - A sphere of radius a free space contains charge of...Ch. 3 - An infinitely long cylindrical dielectric of...

Ch. 3 - Consider a cylindrical charge distribution having...Ch. 3 - The sun radiates a tota1 power of about 3.86...Ch. 3 - Spherical surfaces at r = 2, 4, and 6 m carry...Ch. 3 - Prob. 3.14P Ch. 3 - Volume charge density is located as follows; pv=0...Ch. 3 - An electric flux density is given by D=D0aP, where...Ch. 3 - In a region having spherical symmetry, volume...Ch. 3 - State whether the divergence of the following...Ch. 3 - A spherical surface of radius 3 mm is centered at...Ch. 3 - A radial electric field distribution in free space...Ch. 3 - In a region exhibiting spherical symmetry,...Ch. 3 - (a) A flux density field is given as F1 = 5 az....Ch. 3 - (a) A point charge Q lies at the origin. Show that...Ch. 3 - In a region in free space, electric flux density...Ch. 3 - Within the spherical shell, 3D= 5(r-3)3a,C/m2 .(a)...Ch. 3 - If we have a perfect gas of mass density Px...Ch. 3 - Consider a slab of material containing a volume...Ch. 3 - Repeat Problem 3.8, but use .D= pv and take an...Ch. 3 - Prob. 3.29P Ch. 3 - (a) Use Maxwells first equation. đ�›�. D=Pv, to...Ch. 3 - Prob. 3.31P

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