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Q-1) A dielectric sphere that has radius ‘2a' given with a distributed current density “Jo”, another...
Q-1) A dielectric sphere that has radius ‘2a' given with a distributed current density “Jo”, another smaller sphere that has radius 'a' is removed from the larger one. Find the electric field Ē at P point that is far from the construction fy 30 2a P
P5. A sphere of radius 2a has a uniform volume charge density p. A spherical cavity of radius a is now removed from the sphere as shown. Show that the electric field within the cavity is uniform, has magnitude E-ρα/3e0, and is parallel to the common diameter of both spheres
#1 and #3 I) )A solid insulating sphere of radius a carries a net positive charge density 3p uniformly distributed throughout its volume. A conducting spherical shell of inner radius 2a and outer radius 3a is concentric with the solid sphere and carries a net charge density-22 Using Gauss's law, find the electric field everywhere. Sketch the electric field 2) "A) The current density in a cylindrical wire of radius R meters is uniform across a cross section of the...
Pleasee I need the best answer! A point charge q is placed in the center of a solid dielectric sphere of radius R and permittivity e constant. Assume that the dielectric material of the sphere is linear and that the point charge in the center of the sphere is the only free charge a Determine the electrical displacement inside and outside the sphere. b. Determine the electric field inside and outside the sphere c. Determine the polarization vector using (1)...
3. (8 points) Consider a conducting sphere with total electric charge +Q with radius Rị centered at p= 0 (spherical coordinates). The surface charge at r = R1 is spread uniformly on this spherical surface. There is also an outer conducting shell of radius r = R2, centered at r = 0 and with total electric charge - Q also spread uniformly on the surface. This arrangement of separated positive and negative charge forms a capacitor. We will assume that...
A dielectric sphere of radius a has a polarization P Kr2f. Find the electric field and electric displacement at distance r from center, a) for r < a (inside the sphere), and b) for r>a (outside the sphere)
A sphere of radius a is made of a nonconducting material that has a uniform volume charge density p. A spherical cavity of radius b is removed from sphere which is a distance z from the center of the sphere. Assume that a > z + b. a) Find the magnitude and direction of the electric field at point y0 which is separated by distance yo from the center of the sphere. b) Find the magnitude and direction of the electric field...
1) (a) A conducting sphere of radius R has total charge Q, which is distributed uniformly on its surface. Using Gauss's law, find the electric field at a point outside the sphere at a distance r from its center, i.e. with r > R, and also at a point inside the sphere, i.e. with r < R. (b) A charged rod with length L lies along the z-axis from x= 0 to x = L and has linear charge density λ(x)...
9. Consider a non-conducting solid sphere of radius 2a and uniform charge density per unit volume Pv. 2a 2a (a) Detrmine the electric field everywhere (b) Plot the magnitude of the electric field (c) A spherical cavity of radius a is carved out from the sphere. Compute the electric field within the cavity
Problem 2: a conducting sphere A conducting sphere has a positive net charge Q and radius R. (Note: since the sphere is conducting all the charge is distributed on its surface.) a) By reflecting on the symmetry of the charge distribution of the system, determine what the E-field lines look like outside the sphere for any r > R. Describe the E-field in words and with a simple sketch. Make sure to also show the direction of the E-field lines....