A cube of side L-3.2 m lies in a region where the electric field is given...
An electric field given by E→ = 4.4î - 7.4(y2 + 1.6)ĵ pierces the Gaussian cube of edge length 0.320 m and positioned as shown in the figure. (The magnitude E is in newtons per coulomb and the position x is in meters.) What is the electric flux through the (a) top face, (b) bottom face, (c) left face, and (d) back face? (e) What is the net electric flux through the cube?
A cube has sides of length L-U.270 m. lt is placed with one corner at the origin as shown in the figure below. I he electric field is not uniform but is given by E-(-6.00 N/C·m)n + (1.50 N/C·m)2k. (top) S (back) S (right side) (left side) S, (bottom) Ss (front) (a) Find the electric flux through each of the six cube faces S1,s2,s3, s4, ss, and S6. (N/C) 、m2 (N/C) m2 (N/C) m2 (N/C)·m2 (N/C) . rr,2 (b) Find...
A hollow cube is immersed in a electric field parallel to the x axis. at all points of the front surface the E-field is -34i N/C and at the back surface the E-field is +20i N/C. find the net charge inside the cube. so I get that there is effectively no flux through the top and side surfaces but im not really sure how to calculate the flux through the front/back without being provided the dimensions of the cube, would...
A cube of edge length 2.9 m is inside a region of a uniform electric field(shown below). What is the electric flux through the front face if the electric field in newtons per coulomb, is given by a) 61 c) what is the total flux through the cube for each of the above fields
please help i don't understand how solve using gauss' law. An electric field given by E 5.2i - 7.4(y2 3.2)j pierces the Gaussian cube of edge length 0.340 m and positioned as shown in the figure. (The magnitude E is in newtons per coulomb and the position x is in meters.) What is the electric flux through the (a) top face, (b) bottom face, (c) left face, and (d) back face? (e) What is the net electric flux through the...
An electric field given by E→ = 5.2 î - 9.5(y2 + 5.8) ĵ pierces the Gaussian cube of edge length 0.980 m and positioned as shown in the figure. (The magnitude E is in newtons per coulomb and the position x is in meters.) What is the electric flux through the (a) top face, (b) bottom face, (c) left face, and (d) back face? (e) What is the net electric flux through the cube? Gaussian surface
2. An imaginary cubical surface of side L is in a region of uniform electric field E. Find the electric flux through each face of the cube and the total flux through the cube when (a) it is oriented with two of its faces perpendiculars to E(b) the cube is turned by an angle about the vertical axis. (a) ol HA 190 - 0 S
(a) The electric field in a certain region is E = (-4.0k) N/C. Determine the electric flux due to this field through an area represented by the vector A = (3.41 – 5.4K) m2. N- m²/c (b) Determine the flux due to the same electric field when the surface orientation has changed such that the area is now represented by the vector A = (3.4 - 5.49) m2. Nm2/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
The trapezoid shape below is comprised of 6 surfaces. It lies in a region when an electric field of <-10,8,1> exists. 6 cm a. Determine the flux through each of the 6 surfaces. Vm top Vm Vm Pright Vm front Vm Vm b. Based on Gauss's law, what is the net charge enclosed within the trapezoid? The trapezoid shape below is comprised of 6 surfaces. It lies in a region when an electric field of exists. 6 cm a. Determine...