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2. An imaginary cubical surface of side L is in a region of uniform electric field...
An imaginary cubical surface of side L has its edges parallel to the x-, y- and...
An imaginary cubical surface of side L has its edges parallel to the x-, y- and z-axes, one corner at the point x = 0,y = 0, z = 0 and the opposite corner at the point x=L, y=L, z=L. The cube is in a region of uniform electric field E⃗ =E1i^+E2j^, where E1 and E2 are positive constants. Calculate the electric flux through the entire cubical surface. Face the normal points out of the cube. Express your answer in...
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 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)...
A He++ ion is at the center of a cubical region, 5 nm to a side....
A He++ ion is at the center of a cubical region, 5 nm to a side. What is the electric flux through one face of this cube?
A charge q= -90 nC sits at the center of a cube of side length L...
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.
rge density p must a region of space Explain. olume charge den pe uniform in this...
rge density p must a region of space Explain. olume charge den pe uniform in this n of uniform posi- Can E be uniform 22.6 . The cube in Fig. E22.6 has sides of length L = 10.0 cm. The electric field is uniform, has magnitude E = 4.00 X 10N/C, and is parallel to the xy-plane at an angle of 53.Iº measured from the +x-axis toward the +y-axis. (a) What is the electric flux through each of the six...
Problem 2 A hemispherical surface with radius R is a region of uniform electric field E...
Problem 2 A hemispherical surface with radius R is a region of uniform electric field E has its axis aligned parallel to the direction of the field. Derive an expression for the electric flux through the surface. Final answer not given
22. Figure P24.22 (page 742) represents the top view of a cubic gaussian surface in a...
22. Figure P24.22 (page 742) represents the top view of a cubic gaussian surface in a uniform electric field E ori ented parallel to the top and bottom faces of the cube. The field makes an angle 0 with side 0, and the area of each face is A. In symbolic form, find the electric flux through (a) face 0, (b) face 2, (c) face 3, (d) face 4 and (e) the top and bottom faces of the cube. (f)...
A cube of edge length 2.9 m is inside a region of a uniform electric field(shown...
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
1. An imaginary right circular cone (closed surface) that has a base angle 0 and a...
1. An imaginary right circular cone (closed surface) that has a base angle 0 and a base radius (Figure 1), is in a region of uniform electric field E (the electric field lines are vertical and parallel to the axis of the cone ). 1.1. What is the flow through the chronic surface (top of the cone)? 1.2. What is the total flow through the cone (closed surface)? Figure
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 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)...
rge density p must a region of space Explain. olume charge den pe uniform in this n of uniform posi- Can E be uniform 22.6 . The cube in Fig. E22.6 has sides of length L = 10.0 cm. The electric field is uniform, has magnitude E = 4.00 X 10N/C, and is parallel to the xy-plane at an angle of 53.Iº measured from the +x-axis toward the +y-axis. (a) What is the electric flux through each of the six...
Problem 2 A hemispherical surface with radius R is a region of uniform electric field E has its axis aligned parallel to the direction of the field. Derive an expression for the electric flux through the surface. Final answer not given
22. Figure P24.22 (page 742) represents the top view of a cubic gaussian surface in a uniform electric field E ori ented parallel to the top and bottom faces of the cube. The field makes an angle 0 with side 0, and the area of each face is A. In symbolic form, find the electric flux through (a) face 0, (b) face 2, (c) face 3, (d) face 4 and (e) the top and bottom faces of the cube. (f)...
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
1. An imaginary right circular cone (closed surface) that has a base angle 0 and a base radius (Figure 1), is in a region of uniform electric field E (the electric field lines are vertical and parallel to the axis of the cone ). 1.1. What is the flow through the chronic surface (top of the cone)? 1.2. What is the total flow through the cone (closed surface)? Figure
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