A uniform electric field E Eoay passes through a cylinder. For a given point Find the vector component of E in cylindrical coordinates that is perpendicular to the cylinder at P. Find the vector comp...
Please help me. i didnt understand those formulas. can you please explain them. thanks. Problem 3.25 A vector field is given in cylindrical coordinates by Point P(2, T,3) is located on the surface of the cylinder described by r-2. At point P find (a) the vector component of E perpendicular to the cylinder, (b) the vector component of E tangential to the cylinder. Can anyone please tell me where does these formulas come from and also is there any formulas...
A uniform electric field is produced due to the charge distribution inside the closed cylindrical surface (a) What type of charge distribution is inside the surface? C a positive line charge situated on and parallel to the axis of the cylinder O a negatively charged plane parallel to the end faces of the cylinder C a positively charged plane parallel to the end faces of the cylinder a collection of negative point charges arranged in a line at the center...
P6. Find the vector electric field at a point on the perpendicular bisector of a thin rod of length L with non-uniform charge density λ = 4x
+4 +Q a. Find the electric Field vector E at point P (0, +a). (Calculate the magnitude, and draw b. c. d. the vector in the picture.) Sketch the electric field lines. Find the electric Field E at (x, 0) for x >a Find out the location (x, y) where the electric Field E becomes zero. (Hint: Use the solution of e).
An uniform electric field, E. with a magnitude of passes through a square surface at an angle of α-32.5 degrees relative to a line on the surface, as shown in the figure below. The square measures 2m x 2m, and the flux through the surface is measured to be 21.4 What is the magnitude of the electric field, Eo? N-m
An uniform electric field, E with a magnitude of Eo passes through a square surface at an angle of θ-56.7 degrees relative to a line on the surface, as shown in the figure below. The square measures 2m × 2m , and the flux through the surface is measured to be 23.6N.m^, What is the magnitude of the electric field, E)?
1) Find the electric field vector E at point P= (0,-a). (Calculate the magnitude and draw the vector). 2) Sketch the electric field lines. 3)Find out the location (x,y) where the electric field E becomes 0. -Q (0, a) 2Q P (0, -a)
1. A cylinder of radius R immersed in a uniform electric field E. with the cylinder axis parallel to the field what is the flux ? of the electric field through this closed surface.
An electric field is described in cylindrical coordinates as Find the voltage drop VAB where d is the point (1, 0, 0) and B is the point (2, π/2, l). (In the description of these points, the cylindrical coordinate notation (p, p, z) is used, where dimensions are in [m] and angles are in radians.) Assume that the voltage drop is path independent (i.e., this is a valid electrostatic field), so you can use any path that you wish. Hint:...
Q1) A uniform electric field of magnitude 8x 10 N/C passes through a circle of radius 13 cm. What is the electric flux through the circle when its face is (a) perpendicular to the Geld lines, (b) at 30° to the field lines, and (c) parallel to the field lines?