A cube, 100.0m on a side, has a total charge of 12.0 nC distributed uniformly on its surface.
a. What is the E-field strength just above the surface of the cube at the middle of one of the sides?
b. What’s the approximate E-field strength a distance of 1000.0 km from the cube?
c. What’s the electric flux through a spherical surface that completely encloses the cube?
A cube, 100.0m on a side, has a total charge of 12.0 nC distributed uniformly on...
A charge q= -90 nC sits at the center of a cube of side length L = 1.15369248 m. Find a) the total flux of the electric field through the cubical surface. b) the flux through each of its faces, and c_ the flux through the surface of a cube that is twice as large, but is not centered on the charge, q.
A total charge, Q, is distributed uniformly throughout a cube of edge length, a. Is the resultant electric field at an external point, P, a distance r from the center. C, of the cube, given by E=Q4πϵ0r2? If not, can E be found by constructing a "cocentric" cubical Gaussian surface? If not, explain why not. Can you say anything about E if r≫a?
QUESTIONS A line of uniformly-distributed total charge has a length = 25 m. At a radial distance - 0.30 m from the middle of the line the electric field = 81 NC. The line charge is closest to 11 nc О 68 с. 34 nc 107 nc QUESTION A metallic spherical shell has an inner radius -0.40mand outer radius 0.75m and a net charge -6.00. An isolated point charge-3.5 is located at thecenter of the shelf 0.0m). The charge on...
? A total charge, Q, is distributed uniformly throughout a cube of edge length, a. Is the resultant Q electric field at an external point, P, a distance r from the center. C, of the cube, given by E 4160 m2 If not, can E be found by constructing a "cocentric" cubical Gaussian surface? If not, explain why not. Can you say anything about E ifr » a?
A long cylindrical rod (radius = 2.00 cm) has a charge uniformly distributed on its surface. The magnitude of the electric field at a point 8.00 cm radially outward from the axis of the rod is 85.0 N/C. (a) How much charge per unit length exists on the rod? (b) What would be the electric flux through a cube of side 5.0 cm situated such that the rod passes through opposite sides of the cube perpendicularly?
A charge of -20 HC is distributed uniformly over the surface of a spherical conductor of radius 12.0 cm. Determine the electric field (in N/C) due to this charge at the following distances from the center of the sphere. (Enter the radial component of the electric field.) (a) 7.0 cm N/C) (b) 9.0 cm Nc) N/C (c 22.0 cm
Flux through a cube: The electric field, E, in a cube of side a 0.70 m is given by where Eo is a scalar with valueE-0.125 N/C. The sides of the cube lie along the z, y, and z axes as shown in the figure below. Determine the net charge Qend in nanocoulombs (nC), enclosed by cube. DC
+3.20 nC of charge is uniformly distributed along the top half of a thin rod of total length L = 3.40 cm, while -3.20 nC of charge is uniformly distributed along the bottom half of the rod, as shown in the figure, what is the magnitude of the electric field at the dot, a distance r= 20.0 cm from the centre of the rod?
1. (3 points) A charge is at the center of a cube of side length a . What is the electric flux through the cube due to this charge? 2. (3 points) A charge Q is a distance b above the center of the top face of a cube of side length a. (Note: This charge is outside of the cube.) What is the electric flux through the cube due to this charge? 3. (4 points) A parallel plate capacitor...
A 10-cm-long thin glass rod uniformly charged to 12.0 nC and a 10-cm-long thin plastic rod uniformly charged to - 12.0 nC are placed side by side, 4.50 cm apart. What are the electric field strengths E1 to E3at distances 1.0 cm, 2.0 cm, and 3.0 cm from the glass rod along the line connecting the midpoints of the two rods? Specify the electric field strength E1 Specify the electric field strength E2 Specify the electric field strength E3