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2. Assume the magnitude of the electric field on each face of QIC the cube of...
Assume the magnitude of the electric field on each face of the cube of edge L-...
Assume the magnitude of the electric field on each face of the cube of edge L- 1.07 m in the figure below is uniform and the directions of the fields on each face are as indicated. (Take El-31.8N/c and E,-23.5 NC.) E2 20.0 N/C 20.0 N/C Ei 20.0 N/C 50N/C (a) Find the net electric flux through the cube. N m2/c (b) Find the net charge inside the cube. (c) Could the net charge be a single point charge? O...
ID Signature (2) Assume the magnitude of the electric field on each face of the cube...
ID Signature (2) Assume the magnitude of the electric field on each face of the cube of edge L-1.00 m in the figure shown is uniform and the directions of the fields on each face are as indicated. Calculate the electric flux through each face of the cube, the net electric flux and the enclosed charge. 250N/C 200N/C (10 marks) 200N/ N/C Solution e,-8.8542 x 10-12C/N-m2 Note: 200NC The area of each face is A-1.00㎡ (vi) Total flux: vill) Enclosed...
Assume the magnitude of the electric field on each face of the cube of edge L...
Assume the magnitude of the electric field on each face of the cube of edge L = 1.11 m in the figure below is uniform and the directions of the fields on each face are as indicated. (Take E_1 = 33.9 N/C and E_2 = 27.1 N/C.) (a) Find the net electric flux through the cube. kJ N middot m^2/C (b) Find the net charge inside the cube. kJ C
Flux through a cube: The electric field, E, in a cube of side a 0.70 m...
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
A cube of side L-3.2 m lies in a region where the electric field is given...
A cube of side L-3.2 m lies in a region where the electric field is given by E-2 7+5.4)i -4.0k N/C. We wish to find the net electric flux through the cube by first calculating the flux through each of (a) What is the flux through the left face of the cube? N-m2/C (b) What is the flux through the right face of the cube? N m2/c (c) What is the flux through the top face of the cube? (d)...
At each point on the surface of the cube the electric field is parallel to the...
At each point on the surface of the cube the electric field is parallel to the z axis. The length of each edge of the cube is 3.7 m. On the top face of the cube the electric field - 33 k N/C and on the bottom face it is + 22 k N/C. Determine the net charge contained within the cube.
The figure below represents the top view of a cubic surface in a uniform electric field...
The figure below represents the top view of a cubic surface in a
uniform electric field oriented parallel to the top and bottom
faces of the cube. The field makes an angle θ=40o with side and the
area of each face is A
. a) Draw an area vector A for each face, , , , b) Label the
angle between the area vector A and the electric field vector E for
each face. c) Find flux through each face....
A cube with sides of 33.0 cm is placed in a nonuniform electric field E(x, y,...
A cube with sides of 33.0 cm is placed in a nonuniform electric field E(x, y, z) = −3.0xi + 5.0yj + 4.0zk, where x, y, and z are measured in meters and E is in N/C. Determine the electric flux through each of the six faces of the cube, assuming the cube has a corner at the origin and sides along the x, y, and z axes. face at x = 0 face at x = 33.0 cm face...
A point charge of magnitude q is at the center of a cube with sides of...
A point charge of magnitude q is at the center of a cube with sides of length L Part A) What is the electric flux ? through each of the six faces of the cube? Use ?0 for the permittivity of free space. Part B) What would be the flux ?1 through a face of the cube if its sides were of length L1 ? Use ?0 for the permittivity of free space.
The net electric flux through a cubic box with sides that are 15.0 cm long is...
The net electric flux through a cubic box with sides that are 15.0 cm long is 5.00×103 N⋅m2/C . What charge ? is enclosed by the box?
Assume the magnitude of the electric field on each face of the cube of edge L- 1.07 m in the figure below is uniform and the directions of the fields on each face are as indicated. (Take El-31.8N/c and E,-23.5 NC.) E2 20.0 N/C 20.0 N/C Ei 20.0 N/C 50N/C (a) Find the net electric flux through the cube. N m2/c (b) Find the net charge inside the cube. (c) Could the net charge be a single point charge? O...
ID Signature (2) Assume the magnitude of the electric field on each face of the cube of edge L-1.00 m in the figure shown is uniform and the directions of the fields on each face are as indicated. Calculate the electric flux through each face of the cube, the net electric flux and the enclosed charge. 250N/C 200N/C (10 marks) 200N/ N/C Solution e,-8.8542 x 10-12C/N-m2 Note: 200NC The area of each face is A-1.00㎡ (vi) Total flux: vill) Enclosed...
Assume the magnitude of the electric field on each face of the cube of edge L = 1.11 m in the figure below is uniform and the directions of the fields on each face are as indicated. (Take E_1 = 33.9 N/C and E_2 = 27.1 N/C.) (a) Find the net electric flux through the cube. kJ N middot m^2/C (b) Find the net charge inside the cube. kJ C
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
A cube of side L-3.2 m lies in a region where the electric field is given by E-2 7+5.4)i -4.0k N/C. We wish to find the net electric flux through the cube by first calculating the flux through each of (a) What is the flux through the left face of the cube? N-m2/C (b) What is the flux through the right face of the cube? N m2/c (c) What is the flux through the top face of the cube? (d)...
The figure below represents the top view of a cubic surface in a
uniform electric field oriented parallel to the top and bottom
faces of the cube. The field makes an angle θ=40o with side and the
area of each face is A
. a) Draw an area vector A for each face, , , , b) Label the
angle between the area vector A and the electric field vector E for
each face. c) Find flux through each face....
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