7.2 Please help me with this problem
7.2 Please help me with this problem An infinite plane sheet lying in the z =...
9. (20 points) Suppose you have an infinite sheet of thickness d, the bottom lying at y = 0 in the x-z plane, that carries a current density described by ] = J. ł, as shown in the image below. d j = Jože ---- I. (4 points) Describe this current density (i.e., it's direction in the image and how it is distributed in the slab). (16 points) Find the magnetic field, B, everywhere. II.
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are equally spaced from the origin by xo 4.8 cm. Each sheet consists of an infinite array of wires with a density n = 15 wires/cm. Each wire in the left sheet carries a current l1 = 3.7 A in the negative z- direction. Each wire in the right sheet carries a current l2 = 5.1 A in the positive z-direction ES R P 1)...
Please show steps B. Magnetostaties: The x-y plane contains an infinite current sheet with surface current density s8Is. Find the magnetic fleld H everywhere in space. Amperian Contour O00o y (a) Use the right-hand rule and make a "Ruestimate" for the magnetic field intensity H both above (z> 0) and below (z<0) this infinite current sheet. (b) Choose an Amperian Contour that encloses the current sheet as shown above and perform the closed path integral of H di around this...
24) An infinite sheet of charge sits on the xz plane with free space on either side of the sheet. The surface charge to point density on this sheet is p, - 10nC/m2. What is the potential 1,2,2)? a. (5/e, )x10-9 b. 0 c.-(3.5 /e,)-10-9 d. None of the others e. 5x109 difference at point (1.2.3) with respect
b) Figure Q1(b) describes an infinite sheet of electric surface current density (L=a,JoA /m) directed along the x-axis, and placed on the z=0 plane between free space for the region z < 0 and a dielectric medium for z > 0. It is known from the solution of 'a) above that the electric field intensity excited by this distribution of current is described by E= provided that k,-ω μ,e°, k=0)Ju,e,e'. By imposing boundary conditions as may apply, determine the constants...
Infinite sheet carrying surface charge density sigma = - 1 MuC/m^2 is in y-z plane. A point charge q= +8pie MuC is located on x-axis at point (1,0) one meter from the origin. Find the forces acting on the charge q and on the charged plate. Find a coordinate or coordinates on the x-axis for which the net electric field zeroes.
Example 5 reads: We consider an infinite slab of a conducting material with magnetic susceptibility xM carring a certain current distribution. The slab is parallel to the xy plane, between z--a andz-a. It carries a free volume current density J, (z) -(Joz/a)i which is plotted in Fig 9.12. Above the xy plane the current is out of the page, below it is into the page, and the integrated current density is 0. Outside the slab is vacuum. What are H,...
Mugnetostaties: The -y plane contains an infinite current sheet with surfiace demsity / Find the manette field n everywhere in space. Amperian Contour a hand make istinatc" for-ths magaeic neld ineity bh above (z > 0) and below (z < 0) this infinite current sheet. perform the closed path integral of N dl around this contour Amperian Contour (b) Choose an Amperian Contour that encloses the current sheet as shown above and (o Calculate the total current fnowing through the...
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are equally spaced from the origin by x7.2 cm. Each sheet consists of an infinite array of wires with a density n 18 wires/cm. Each wire in the left sheet carries a current 3.5 A in the negative z direction. Each wire in the right sheet carries a current l2 5.7 A in the positive z-direction 2 1) What is Bx(P), the x-component of the...
An infinite slab of charge of thickness 10m lies on the x-y plane between z = -5m and z=+5m. The charge density, ρ, is 4 C/m3 and is a constant throughout the slab. (HINT: this is similar to what we did in class to find the E-field for an “infinite sheet” of charge… remember the cookie dough and the cookie cutter). a. Use Gauss's Law to find an expression for the Electric Field strength for any point inside the slab (-5m...