A point charge q is located at distances a and b from two perpendicular conducting half-planes, both at zero potential. Calculate the force acting on the charge q.
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A point charge q is located at distances a and b from two perpendicular conducting half-planes,...
A point charge q is located between two mutually parallel conducting planes. Its distance from each plane is equal to l. Find the magnitude of the plane acting on the charge if the planes have charge density x1 and x2.
Three very large parallel non-conducting planes (infinte planes) have surface charge densities of ?, −? and – 3? (? > 0). Planes are distance ? apart from each other. The origin of the coordinate system was set on the first plane as shown in the figure. Planes are perpendicular to z axis. Point A is 1/2 ? away from the origin while point B and P are 2 ? and 4 ? away from the origin respectively. a) Use Gauss’s...
Three very large parallel non-conducting planes (infinte planes) have surface charge densities of sigma,-sigma a and -3sigma (sigma > 0). Planes are distance d apart from each other. The origin of the coordinate system was set on the first plane as shown in the figure. Planes are perpendicular to z axis. Point A is 1/2 d away from the origin while point B and P are 2 d and 4 d away from the origin respectively. a) Use Gauss's law,...
A point charge q is located a distance r from the center of a
conducting shell with inner radius R1 and outer radius R2.
What is the electric potential at the center of the shell, assuming
r <R1?
Question 7 A point charge q is located a distance r from the center of a conducting shell with inner radius R1 and outer radius R2. What is the electric potential at the center of the shell, assuming r< R1? Select the...
LSM 1 A point charge Q-10 mC is located at I m from a grounded conducting plate as shown in the figure. Assuming that the plate is infinitely large, calculate the force exerted on the charge Data Go-10 /36x F/m) Justify your answer 1m
A positive point charge Q is located in free-space at the center of a spherical conducting shell The conducting shell consists of two concentric spheres, with inner radius a and an outer radius b (b> a), shaded region as shown in figure below. a) (15 points) Determine electric flux density everywhere. b) (5 points) Determine electric potential at the inner radius of the conducting shell c) (5 points) What is the total charge at the inner surface at r=a? justify...
1. A point charge +Q is located at the origin, and a point
charge -Q is located at (x,y) = (0,L).
(a) Find the electric field at point P, which is a distance L
away from both +Q and -Q, as shown in the diagram. Express your
answer in unit vector notation using the coordinate system
given.
(b) A point charge -2Q is placed at point P. Find the Coulomb
force on the charge -2Q due to the other two...
Five point charges are located on the y-axis. Two are positive with charge q = 0.54 mC and three are negative with charge q = -0.54 mC. The positive charges are a =4.5 m away from the origin, one on each side of it. Two of the negative charges are 2a away from the origin, one on each side of it. A negative charge sits at the origin. A positive point charge with charge Q= 6 mC is positioned on...
A point charge -q is located at the origin. The point charge is surrounded by a ring with uniform line charge density λ and radius a. The charged ring sits in the x-y plane and is centered on the origin. a) Calculate the electric potential along the z-axis using a reference point at ∞ using Coulomb’s law for V. (i.e. do not find the electric field first.) b) Use E = −∇V to calculate the electric field along the z-axis....
Calculate the potential due to a point charge q in the presence of a conducting sphere at constant potential V. Radius of conducting sphere is R. The point charge is situated at a distance b from the center of the sphere (b>R) ( Image charge for a grounded conducting sphere is given ; q' = -(Rq)/b and distance r'= R^(2)/b