Two semi-infinite grounded conducting planes meet at right angles. In the region between them, there is a point charge, situated as shown in the figure at the coordinates (a,b). How many image charges are needed to solve the problem, what is the charge on each, and where are they located? (give locations as x-y coordinates please)
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Two semi-infinite grounded conducting planes meet at right angles. In the region between them, there is a point charge, situated as shown in the figure at the coordinates (a,b). How many image charges are needed to solve the problem, what is the charge on each, and where are they located? (give locations as x-y coordinates please)
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- Two grounded conducting planes intersect at 60◦ and a point charge q is located between them. Determine the positions of the image charges that will give the electric field between the planes.Consider the following image, point P is located on the x axis with coordinates (X, 0). Two positive charged particles are on the y-axis, ad and b apart respectively from the point of origin (0, 0). Draw each component of the electric field at point P?The figure below represents the top view of a cubic gausslan surface in a uniform electric field E oriented parallel to the top and bottom faces of the cube. The field makes an angle 8 with side 1, and the area of each face is A. (Use any variable or symbol stated above along with the following as necessary: E for the magnitude of the electric field.) E (a) In symbolic form, find the electric flux through face 1. PE ← (b) In symbolic form, find the electric flux through in 2. (c) In symbolic form, find the electric flux through face 3. (d) In symbolic form, find the electric flux through face 4. (e) In symbolic form, find the electric flux through the top and bottom faces of the cube. (ⓇE) top a. battom (f) What is the net electric flux through the cube? (8) How much charge is enclosed within the gaussian surface?
- Problems 4-5 refer to the following diagram and situation. A point charge (with charge Q) at the end of an insulating cord is observed to be in equilibrium in a uniform horizontal electric field of when the pendulum's angle with the vertical is 0 = 38.6°, is as shown in the Figure. The electric field is to the right and the strength of the electric field is 9500 N/C. The mass of the point charge is m = 0.0200 kg and the acceleration due to gravity is 9.8 m/sec². Problem 4: What is the tension on the cord? a. 0.251 N Problem 5: What is the charge Q? a. (1.65 x 10-5)C E b. 0.451 N b. (3.65 x 10-5)C 0 Q m c. 0.651 N C. (5.65 x 10-5) C d. 0.851 N d. (7.65 x 10-5)CA point charge q is situated a distance a from the center of a grounded conducting sphere of radius R. Derive the image charge amount and position.Please show all the steps, and solution separate at the end. Part (a) Do this for the range r > R. Part (b) Do this for the range r < R.
- You have been the following vector function which describes an electric field. Its your job to figure out the electric flux trough each of the three square sections depicted on the right. a E = 2î+x²ĵ a a a aThe figure below represents the top view of a cubic gaussian surface in a uniform electric field E oriented parallel to the top and bottom faces of the cube. The field makes an angle with side 1, and the area of each face is A. (Use any variable or symbol stated above along with the following as necessary: E for the magnitude of the electric field.) (a) In symbolic form, find the electric flux through face 1. ΦΕ = (b) In symbolic form, find the electric flux through in 2. ΦΕ = (c) In symbolic form, find the electric flux through face 3. ΦΕ = (d) In symbolic form, find the electric flux through face 4. ΦΕ (e) In symbolic form, find the electric flux through the top and bottom faces of the cube. E E 1 = top bottom = = = (f) What is the net electric flux through the cube? ΦΕ (g) How much charge is enclosed within the gaussian surface? 9 inProblem 1 Shown on the right is an electroscope. The sphere on the top, the leaves at the bot- tom, and the rod connecting them are made by conducting material. The spherical shell that blocks the influence of external electric fields is also made by conducting material but the contact with the rod is insulated, so that charges will not shuffle between the rod and the spherical shell. The electroscope is first negatively charged by touching the sphere with a negatively charged plastic plate. The leaves spread apart and we remove the plastic plate. We then bring a positively charged glass bar close to the sphere without touching the sphere. What happens to the leaves? Leaves (A) One leaf moves higher, the other lower. (B) Nothing changes to the leaves (C) The leaves spread farther apart. (D) The leaves get closer together. Clearly specify/circle your answer, and give a brief explanation.