At each point on the surface of the cube shown in the figure, the electric field is parallel to the z axis. The length of each edge of the cube is 4.0 m. On the top face of the cube E with arrow = −33 k N/C, and on the bottom face of the cube E with arrow = +14 k N/C. Determine the net charge contained within the cube.
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At each point on the surface of the cube shown in the figure, the electric field...
At each point on the surface of the cube shown in the figure the electric field is parallel to the z axis. The length of each edge of the cube is 4.2 m. On the top face of the cute the electric field E =-39k N/C and on the bottom face it is E = + 25k N/C . Determine the net charge contained within the cube. Units I N/C or V/m 14
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.
Chapter 23, Problem 006 Your answer is partially correct. Try again At each point on the surface of the cube shown in the figure the electric field is parallel to the z axis. The length of each edge of the cube is 3.2m. On the top face of the cube the electric field E =-44 k NC and on the bottom face it is E = + 21 k N/C . Determine the net charge contained within the cube. nc
Think of the square as one face of a cube with edge d.) d/2 6 At each point on the surface of the cube shown in Fig. 23-27, the electric field is parallel to the z axis. The length of each edge of the cube is 3.0 m. On the top face of the cube the field is E= Fig. 23-29 Problem 5. E the termine the netcharge contained within the cube. kN/C, and/on bottom face it is +20kN/C. 11299
I've looked at a couple similar problems on here and although trying their methods my answer is still wrong. So please read carefully. FULL SCREEN PRINTER VERSION At each point on the surface of the cube shown in the figure the electric field is parallel to the axis. The length of each edge of the cube is 4.3 m. On the top face of the cube the electric field E = -27k NC E = +22K NIC and on the...
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....
The cube below has edge length 0.2 m. A horizontal electric field is perpendicular to the left and right faces of the cube and is parallel to the other faces. At the left face E 6 x 10 N/C and at the right face E 4 x 10 N/C. How much charge is contained inside the cube? 7. Is it positive or negative? 8. Using the Gauss's Law, find the expression of the electric field at a distance r from...
The figure below shows a closed Gaussian surface in the shape of a cube of edge length 2.00 m. It lies in a region where the electric field is given by = [ (3.40x + 4.00) + 6.00 + 7.00 ] N/C, where x is in meters. What is the net charge contained by the cube in Coulombs? The figure below shows a closed Gaussian surface in the shape of a cube of edge length 2.00 m. It lies in...
Question 1 The figure shows a closed Gaussian surface in the shape of a cube of edge length 2.80 m. It lies in a region where the electric field is given by E = (1.58x + 4.62 4.197.86 k N/C, with x in meters. What is the net charge contained by the cube? Number Units the tolerance is +/-590
The figure shows a closed Gaussian surface in the shape of a cube of edge length 2.1 m, with one corner at x1 = 4.8 m,y1 = 4.7 m. The cube lies in a region where the electric field vector is given by Ě = -3.2 ì -4.0 y2 +2.4 Â N/C, with y in meters. What is the net charge contained by the cube? *1 -- Number Number 1 Units Units