electromagnetic 5) Point charge in a dielectric medium: (10 pts) A point charge q is fixed...
5) Point charge in a dielectric medium: (10 pts) A point charge q is fixed inside a sheet of glass with a relative permittivity of 5. By what factor does the strength of the electric field inside the dielectric differ from its magnitude in vacuum? Given your result, is the electric field due to the point-charge stronger, weaker, or the same in magnitude to that of a point charge in vacuum? Er = 5
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. A uniform plane electromagnetic wave propagates in a lossless dielectric medium with μ μ0 and ε ε,60 . The phasor electric field is given by the Note that the wavenumber of the dielectric k ko, where ko-o/c ωνμοε0 . Find the (a) relative dielectric permittivity (dielectric constant) (b) direction of propagation n, which is a unit vector (e) angle between the direction that the electric field vector points and the direction of in.
19. A linearly polarized wave propagates in a perfect dielectric medium with relative permittivity of 2. The wave reaches the interface between this medium and air at an angle of incidence 60°. The wave's electric field vector is parallel to the plane of incidence. What percentage of the incident power is transmitted in air? 20. A plane electromagnetic wave traveling in vacuum is normally incident onto a vacuum/dielectric boundary. 36% of the incident power is carried by the reflected wave....
electromagnetic (b) Use the expression obtained in part(a) to calculate the approximate capacitance of a a distance 2 mm. Perform this as a "back of the envelope" calculation by rounding 2) Ideal Parallel Plate Capacitor: (12 pts) (a) Starting with Gauss' Law, derive the capacitance of two oppositely charged finite sheets of surface charge density to and area A separated by a distance d. Assume that the electric field between the two sheets is constant (i.e. neglect fringe-effects) +o d...
(1) a uniform plane electromagnetic wave propagates in a lossless dielectric medium of infinite extent. the electric field in the wave has the instantaneous expression E(r,t) = (iz square root 3 - ix) (5/2) cos(6pi.10^8t - 3 square root 3piz - 3pix), V/m. 1) what is the wavelength of the wave in m? 2) what is the direction of propagation of the wave? 3) what is the relative refractive index of the dielectric medium? 4) what is the instantaneous expression...
(a) For a linear dielectric, the polarization P can be written in terms of the electric field E as P = EoXE. Using this, show that the electric displacement can be written as D= EE where e is the permittivity. (b) Consider the interface between two dielectric materials, which has a free surface charge of. (bi) Using Gauss's law for materials, show that Dabove – Debelow = of where Dabove and Dbelow are the perpendicular (to the interface) components of...
5. In the diagram to the right a small charge Q is fixed on a grid. A B, and C are random points on the grid around the electric charge. (Assume the length of each box to be 0.1 m). a. Draw the direction of the electric field and electric potential at point C c. If Q-5uC, find the magnitude of the ELECTRIC POTENTIAL FIELD at point B b. If Q-5uC, find the magnitude of the ELECTRIC FIELD felt at...
Problem 6. Electromagnetic plane waves in a lossy medium The electric field of an electromagnetic plane wave traveling in a lossy medium can be written as where z is the distance, t is time, and fthe frequency. For f 1 GHz, it is found by measurement that the amplitude of the electric field is attenuated by a factor of 3 after the wave travels 100 m (i.e., to 1/3 of the amplitude at z-0 when it arrives at z- 100...
Electromagnetic plane waves in a lossy medium field of an electromagnetic plane wave traveling in a lossy medium can be written as 6. The where z is the distance, t is time, and f the frequency. For f 1 GHz, it is found by measurement that the amplitude of the electric field is attenuated by a factor of 3 after the wave travels 100 m (ie, to 130f the amplitude at z = 0 when it arrives at z-100 m)....