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2.3 A cylindrically shaped surface is located with one face at x -0. A uniform electric...
2. An imaginary cubical surface of side L is in a region of uniform electric field...
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
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 uniform electric field measured over a square surface with side length d = 13.5 cm...
A uniform electric field measured over a square surface with side length d = 13.5 cm makes an angle θ = 67.50 with a line normal to that surface, as shown in the figure below. If the net flux through the square is 5.30 N·m2/C, what is the magnitude E of the electric field (in N/C)? N/C
A uniform electric field is produced due to the charge distribution inside the closed cylindrical surface...
A uniform electric field is produced due to the charge distribution inside the closed cylindrical surface (a) What type of charge distribution is inside the surface? C a positive line charge situated on and parallel to the axis of the cylinder O a negatively charged plane parallel to the end faces of the cylinder C a positively charged plane parallel to the end faces of the cylinder a collection of negative point charges arranged in a line at the center...
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000....
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000. N/C as shown in the figure. The surface has an area 0.0280 m2, What is the electric flux through this surface? 55° #5) The total electric flux from a 3-dimensional box with 300 cm on a side is 125 x 103 N charge is enclosed by the box? Permittivity of free space is 8.85 x 10" C'/Nm What
An electric field is E = sign(x).(310 N/C)i, where sign(x) equals-1 i#x < 0, 0 if...
An electric field is E = sign(x).(310 N/C)i, where sign(x) equals-1 i#x < 0, 0 if x = 0, and +1 İfx > 0. A cylinder of length L 24 cm and radius R = 4.7 cm has its center at the origin and its axis along the x axis such that one end is at x= +12 cm and the other is at x =-12 cm. (a) What is the flux through each end? N m/C (+x end) N...
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000....
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000. N/C as shown in the figure. The surface has an area o.0280 m2. What is the electric flux through this surface? 55° #5) The total electric flux from a 3-dimensional box with 30.0 cm on a side is 1.25 x 10 Nm,c. what charge is enclosed by the box? Permittivity of free space is 8.85 x 1o1" C/Nm2
The diagram shows a closed triangular prism situated in a region of uniform electric field E...
The diagram shows a closed triangular prism situated in a region of uniform electric field E = (6.84 x 10^4 j) N/C. The dimensions of the triangular prism are a = 18.0 cm, b = 10.0 cm, and d = 32.4 cm. Note that the diagram is not to scale. (a) What is the flux through the bottom face of the triangular prism? What is the direction of the normal for the bottom face of the triangular prism? How is...
30% Three very large planes carrying uniform surface charge densities are located in a medium with...
30% Three very large planes carrying uniform surface charge densities are located in a medium with &r = 2 as shown in Figure 1. Draw the net electric field (E-field) due to the system. Explain what principles you used to obtain the net E-field and comment on the graph. Comment on any assumptions and approximations used. (ii) 15% Calculate the electric field strength and displacement field at the three points shown in Figure 1. 64 =-10 nC/m202 = 10 nC/m²...
We'll work througil uhe caitul 3. In this problem, of the electric field near the surface of a la...
we'll work througil uhe caitul 3. In this problem, of the electric field near the surface of a large, flat metal conductor. In the image at right, the square represents a section of the conductor's surface. The region above the surface is empty space, and below the surface is solid conducting metal. There is a uniform positive surface charge density +σ on the surface of the conductor. R I What is the electric field inside the conductor? Explain your reasoning....
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
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 uniform electric field measured over a square surface with side length d = 13.5 cm makes an angle θ = 67.50 with a line normal to that surface, as shown in the figure below. If the net flux through the square is 5.30 N·m2/C, what is the magnitude E of the electric field (in N/C)? N/C
A uniform electric field is produced due to the charge distribution inside the closed cylindrical surface (a) What type of charge distribution is inside the surface? C a positive line charge situated on and parallel to the axis of the cylinder O a negatively charged plane parallel to the end faces of the cylinder C a positively charged plane parallel to the end faces of the cylinder a collection of negative point charges arranged in a line at the center...
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000. N/C as shown in the figure. The surface has an area 0.0280 m2, What is the electric flux through this surface? 55° #5) The total electric flux from a 3-dimensional box with 300 cm on a side is 125 x 103 N charge is enclosed by the box? Permittivity of free space is 8.85 x 10" C'/Nm What
An electric field is E = sign(x).(310 N/C)i, where sign(x) equals-1 i#x < 0, 0 if x = 0, and +1 İfx > 0. A cylinder of length L 24 cm and radius R = 4.7 cm has its center at the origin and its axis along the x axis such that one end is at x= +12 cm and the other is at x =-12 cm. (a) What is the flux through each end? N m/C (+x end) N...
#4) A planar surface makes an angle 55.0° with a uniform electric field of magnitude 25,000. N/C as shown in the figure. The surface has an area o.0280 m2. What is the electric flux through this surface? 55° #5) The total electric flux from a 3-dimensional box with 30.0 cm on a side is 1.25 x 10 Nm,c. what charge is enclosed by the box? Permittivity of free space is 8.85 x 1o1" C/Nm2
The diagram shows a closed triangular prism situated in a region of uniform electric field E = (6.84 x 10^4 j) N/C. The dimensions of the triangular prism are a = 18.0 cm, b = 10.0 cm, and d = 32.4 cm. Note that the diagram is not to scale. (a) What is the flux through the bottom face of the triangular prism? What is the direction of the normal for the bottom face of the triangular prism? How is...
30% Three very large planes carrying uniform surface charge densities are located in a medium with &r = 2 as shown in Figure 1. Draw the net electric field (E-field) due to the system. Explain what principles you used to obtain the net E-field and comment on the graph. Comment on any assumptions and approximations used. (ii) 15% Calculate the electric field strength and displacement field at the three points shown in Figure 1. 64 =-10 nC/m202 = 10 nC/m²...
we'll work througil uhe caitul 3. In this problem, of the electric field near the surface of a large, flat metal conductor. In the image at right, the square represents a section of the conductor's surface. The region above the surface is empty space, and below the surface is solid conducting metal. There is a uniform positive surface charge density +σ on the surface of the conductor. R I What is the electric field inside the conductor? Explain your reasoning....
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