A uniform electric field with strength, E, is passing through a spherical surface with radius, d, as shown in the figure. (a) Write a symbolic expression for the electric flux through the sphere in terms of d, E, and Eo, as needed. sphere = (b) Write a symbolic expression for the charge enclosed by the sphere in terms of d, E, and Eo, as needed. E
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- Two 10-cm-diameter charged rings face each other, 25.0 cm apart. Both rings are charged to +40.0 nC. What is the electric field strength: Part A For general problem-solving tips and strategies for this topic, you may want to view a Video Tutor Solution of Charge on a Van De Graaff. at the midpoint between the two rings? Express your answer with the appropriate units. HÀ ? Value Units Submit Request Answer Part B at the center of the left ring? Express your answer with the appropriate units.Pictured below is a spherical conducting ball of radius a surrounded by a spherical non-conducting "thick" shell of inner radius b and outer radius c. The conducting ball has a total charge of Q1 and the non-conducting shell has a total charge of Q2 uniformly distributed throughout its volume (i.e., the volume charge density p for the shell is constant) a. Determine the volume charge density p of the non-conducting shell. b. Determine the electric field at a point a distance r from the center of the conducting ball. Consider separately each case: p < a, a C. c. If Q2 = - 2Q1, for which values of r is the electric field zero? Can you show all work part a b and cA uniform electric field of magnitude 2.7 x 104 N/C is perpendicular to a square sheet with sides 2.5 m long. What is the electric flux through the sheet? Hint Electric flux is PE Question Help: Message instructor Submit Question N.m²/C.
- A hollow sphere of radius 1.54 m is in a region where the electric field is radial and directed toward the center of the sphere. If the magnitude of the field at the surface of the sphere is 21.6 N/C, what is the net electric flux through the spherical surface? N. m²/cCalculate the absolute value of the electric flux for the following situations (In all case provide your answer in N m2/C): a. A constant electric field of magnitude 300 N/C at a 30 degrees angle with respect to the flat rectangular surface shown in the Figure above. b. A uniform electric field E = (70 i + 90 k) N/C through a 4 cm ×5 cm in the x-y plane. c. A uniform electric field E = (−350 i + 350 j + 350 k) N/C through a disk of radius 3 cm in the x-z plane.A closed surface is in the form of a block with length c, width b and height a. In this room there is an electric field parallel to the x axis with magnitude: E = A + Bx, where A and B are constants. a. Determine the total flux over the closed surface. b. Determine the amount of charge covered by the payload. N x = a ko-