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Q2. The potential in free space given below. Determine the electric field intensity. a) O(x,y,z) =...
The equation of electric potential in space is given by: V(x,y,z) = 2xy/x 1. Calculate the electric potential at point (x = 1, y = -2, z = 3) in space. 2. Find the electric field E vector as a function of x, y, z. 3. Calculate the electric field at point (x = 1, y = -2, z = 3) in space.
6. You are in a region of space where the electric potential is given by: V(x,y,z) Voxy2ln(z) f for all points where z-0 (above the x-y plane)) Find an expression for the electric field Е(x, y, z). State this vectorially.
9.28 The electric field intensity of a spherical wave in free space is given by E = sin 0 cos(wt – Br)a, V/m Find the corresponding magnetic field intensity H.
The electric field of a uniform plane 7.11 propagating wave in free space is given by (V/m) E — (* + ј9)30е јл:/6 Specify the modulus and direction of the electric field intensity at the z 0 plane at t0, 5, and 10 ns 7.18 Dry sol is characterized by e 2.5, r = 1, and 104 (S/m) determine if dry soil may be considered a good conductor quasi-conductor, or a low-loss dielectric, and then calculate a В, А, мр,...
9.31 The electric field intensity of a spherical wave in free space is given by 10 Find the corresponding magnetic field intensity H
Find the x,y, and z components of the electric field if the potential is given by V=4x^2+3y-z
2720P2019 2. 2 points] In certain region of space, the electric potential is given by V(z,y)- Ar2+ Bry+Cy?, where A-5.00 B 2.50and C-3.00 Calculate the x- and y- components of the electric field. 3. [1 point] Two electrons are released from rest wben they are 2.0 nm apart Explain how to determine the maximum speed they reach.
9. X-rays have intensity and direction that are given by a vector field F(x, y, z) = (z?, sin(2) +y +278, z + cos(x) + sin(xy)). A tonsil (shown below) is given in spherical coordinates as p < 0. Find the flux of the X-ray field F through the surface p = 0 of the tonsil. The surface is oriented with outward pointing normal vectors.
Q2(a) A uniform plane wave propagating in a z in free space ( 0)is normally incident at z-0 on a conductor (z>0) for which ?-61.7 MS/m, r 1 The free-space E wave has a frequency s-1.SMHz and an amplitude of 1.0 V/m; at the interface it is given by Develop He,t fo0 (10 marks) (b) In free space, Generate the: Phase constant p (2 marks) (ii) Wavelength (2 marks) (ii) Phase velocity v, (2 marks) (iv) Intrinsic impedance of the...
In free space, the electric field ſ is the unit vector along y-axis. ce, the electric field intensity E = 20 cos (wt-50x) Î V/m. Calculate, (0) (iii) Displacement current density Oa). Magnetic Field intensity (7) Angular frequency (w). Assume Mo = 414 x 10-7 and Ep = 8.854 x 10-12 F/m. (10 marks)