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-
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- The nonuniform charge density of a solid insulating sphere of radius R is given by = cr2 (r R), where c is a positive constant and r is the radial distance from the center of the sphere. For a spherical shell of radius r and thickness dr, the volume element dV = 4r2dr. a. What is the magnitude of the electric field outside the sphere (r R)? b. What is the magnitude of the electric field inside the sphere (r R)?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-A charge of uniform volume density (40 nC/m³) fills a cube with 5 cm edges. What is the total electric flux through the top surface of this cube? A. 0.0007533 Nm²/C B. 0 Nm2/C C. 0. 1883 Nm2/C D. 0. 565 Nm2 /C E. 0. 09416 Nm²/C
- The following diagram shows a solid insulating sphere with a radius "a" and a charge +3Q surrounded by a spherical conducting shell with inner radius "b", and outer radius "c", and a net charge -20. What is the electric field (direction and magnitude) in the region where aA charge of uniform volume density (80 nC/m³) fills a cube with 10 cm edges. What is the total electric flux through the top surface of this cube? A. 9.04 Nm2 /C В. О Nm? /C C. 3. 013 Nm2/C D. 0.001507 Nm2 /C E. 1. 507 Nm2/C7. Given a + 15 C charged sphere with a diameter of 4.2 cm, solve for the following. fns bh blsit absiero a. Find the electric field outside of the sphere. b. Find the electric field inside of the cylinder.A solid insulating sphere of radius R has a volume charge density p given by p= pexp(-r/a"), where po.a >0 are both constants and r is the distance from the center of the insulator. Which of the following gives the correct expression for the electric fiekd magnitude at a distancer< R inside the insulator? A. E- exp В. Е exp fo 3 c. E = - (-)} D. E = - e(-)} exp E. E= 1-expA charge of uniform volume density (80 nC/m) fills a cube with 7 cm edges. What is the total electric flux through the top surface of this cube? A. 1.034 Nm2 /C B. 3. 101 Nm2/C C. 0.001507 Nm2 /C D. 0 Nm2 /C E. 0. 5168 Nm² /C3. Charge is distributed uniformly over the plane y = -5 cm with a surface charge density of 1/36 nC/m². Find the Electric field intensity. A Find the charge in th e volumo dofined hy 0A spherical shell with uniform volume charge density ρ = 1.84 nC/m3, inner radius a =10.0 cm, and outer radius b = 2.00a (Figure 5). What is the magnitude of the electricfield at radial distancesi. r = 0 ii. r = a/2.00 iii. r = a iv. r = 1.50a v. r = b vi. r = 3.00ba) Find the magnitude of the electric field due to the sheet at pi if the charge density of the sheet is o = -13 µC/m? %3D magnitude of the electric field Give your answer up to at least three significance digits. N/C Pu 2R K 2R Fig. 3 b)Say we place a spherical shell of radius R = 13 cmat point p2 (6, 9,17) We get electric field of magnitude Eshelu = 52 × 104 N/6t point P3 (32, 9, –5)due to only the shell (Fig. 3). Find the magnitude of total charge on the surface of the shell. %3D magnitude of total charge (absolute value) Give your answer up to at least three significance digits. CAn infinitely long solid cylinder of radius 10 cm has a non-uniform volume charge density given by ρ=4r3 where ρ is in C/m3 when r is in meters. a. Calculate the magnitude of the electric field at a distance of 6 cm from the axis of the cylinder. b.Calculate the magnitude of the electric field at a distance of 21 cm from the axis of the cylinder.SEE MORE QUESTIONSRecommended textbooks for youPhysics for Scientists and Engineers: Foundations…PhysicsISBN:9781133939146Author:Katz, Debora M.Publisher:Cengage LearningPhysics for Scientists and Engineers: Foundations…PhysicsISBN:9781133939146Author:Katz, Debora M.Publisher:Cengage Learning