Homework Answers
The electric flux through any surface is given as the product of magnitude of electric field, area of the surface and the cosine of angle between the electric field and the area vector of the surface.
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6) Determine the Total electric flux through the two surfaces as shown in the picture if...
The electric flux through two adjacent spherical surfaces separated by a small distance is known to...
The electric flux through two adjacent spherical surfaces separated by a small distance is known to be the same. Mark all that may be correct. -there is no electric field present in this region of space. -there is a constant E field present in this region of space. -the electric flux through the surface of each sphere has a constant value of zero.
ere is an electric flux of 33.5 N-m2 / C through the square region shown in...
ere is an electric flux of 33.5 N-m2 / C through the square region shown in the figure to the right. Each side of the square has a length of 0.100 m, and the electric field is at an angle of ? = 55.0% relative to the plane of the surface. Assuming that the field is uniform over the region shown, what is the magnitude of the electric field? I1 Number N/ C
There is an electric flux of 25.5 N*m2/C through the square region shown in the figure to the right. Each side of the s...
There is an electric flux of 25.5 N*m2/C through the square
region shown in the figure to the right. Each side of the square
has a length of .100 m, and the electric field is at an angle of
feta= 61 degrees relative to the plane of the surface. Assuming
that the field is uniform over the region shown, what is the
magnitude of the electric field?
There is an electric flux of 25.5 N*m^2/C through the square region shown...
5) What is the total flux that now passes through the cylindrical surface? Enter a positive...
5) What is the total flux that now passes through the cylindrical surface? Enter a positive number if the net flux leaves the cylinder and a negative number if the net flux enters the cylnder. N-m2/C Submit You currently have 0 submissions for this question. Only 10 submission are allowed. You can make 10 more submissions for this question. 21.12 The initial infinite line of charge is now moved so that it is parallel to the y-axis at x =...
The drawing shows an edge-on view of two planar surfaces that intersect and are mutually perpendicular....
The drawing shows an edge-on
view of two planar surfaces that intersect and are mutually
perpendicular. Surface 1 has an area of 1.7 m2, while surface 2 has
an area of 4.3 m2. The electric field E in the drawing is uniform
and has a magnitude of 320 N/C. It is directed towards the two
perpendicular surfaces, making an angle 35o with the bottom
surface. Find the electric flux through (a) surface 1 and (b)
surface 2.
Ē There is an electric flux of 26.5 N·m²/C through the square region shown in the...
Ē There is an electric flux of 26.5 N·m²/C through the square region shown in the figure. Each side of the square has a length of 0.100 m, în is the unit vector normal to the plane of the surface, and the electric field is at an angle of 0 = 59.0° relative to the plane of the surface. A n Assuming that the field is uniform over the region shown, what is the magnitude E of the electric field?...
Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.46 T. When...
Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.46 T. When viewed edge-on, the first surface is tilted at an angle of 14° from the horizontal, and a net magnetic flux of 8.50 x 10-3 Wb passes through it. The same net magnetic flux passes through the second surface. (a) Determine the area of the first surface. m2 (b) Find the smallest possible value for the area of the second surface. m2
(a) The electric field in a certain region is E (4.0)) N/C. Determine the electric flux...
(a) The electric field in a certain region is E (4.0)) N/C. Determine the electric flux due to this freld through an area represented by the vector A (1.51-7.k) m 29 How is the flux defined in terms of the electric field vector, and the area vector? Review dot product rules. 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 -(1.51-7.3)...
56. A surface completely surrounds a +2.0 × 10-6 C charge. Find the electric flux through...
56. A surface completely surrounds a +2.0 × 10-6 C charge. Find the electric flux through this surface when the surface is (a) a sphere with a radius of 0.50 m, (b) a sphere with a radius of 0.25 m, and (c) a cube with edges that are 0.25 m long. 57. A circular surface with a radius of 0.057 m is exposed to a uniforrm external electric field of magnitude 1.44 × 104 N/C. The magnitude of the electric...
The drawing shows an edge-on view of two planar surfaces that intersect and are mutually perpendicular....
The drawing shows an edge-on view of two planar surfaces that intersect and are mutually perpendicular. Surface 1 has an area of 2.0 m2, while surface 2 has an area of 2.5 m2. The electric field E in the drawing is uniform and has a magnitude of 210 N/C It is directed towards the two perpendicular surfaces, making an angle 350 ith the bottom surface. Find the electric flux through (a) surface 1 and (b) surface 2. Surface 1 35...
ere is an electric flux of 33.5 N-m2 / C through the square region shown in the figure to the right. Each side of the square has a length of 0.100 m, and the electric field is at an angle of ? = 55.0% relative to the plane of the surface. Assuming that the field is uniform over the region shown, what is the magnitude of the electric field? I1 Number N/ C
There is an electric flux of 25.5 N*m2/C through the square
region shown in the figure to the right. Each side of the square
has a length of .100 m, and the electric field is at an angle of
feta= 61 degrees relative to the plane of the surface. Assuming
that the field is uniform over the region shown, what is the
magnitude of the electric field?
There is an electric flux of 25.5 N*m^2/C through the square region shown...
5) What is the total flux that now passes through the cylindrical surface? Enter a positive number if the net flux leaves the cylinder and a negative number if the net flux enters the cylnder. N-m2/C Submit You currently have 0 submissions for this question. Only 10 submission are allowed. You can make 10 more submissions for this question. 21.12 The initial infinite line of charge is now moved so that it is parallel to the y-axis at x =...
The drawing shows an edge-on
view of two planar surfaces that intersect and are mutually
perpendicular. Surface 1 has an area of 1.7 m2, while surface 2 has
an area of 4.3 m2. The electric field E in the drawing is uniform
and has a magnitude of 320 N/C. It is directed towards the two
perpendicular surfaces, making an angle 35o with the bottom
surface. Find the electric flux through (a) surface 1 and (b)
surface 2.
Ē There is an electric flux of 26.5 N·m²/C through the square region shown in the figure. Each side of the square has a length of 0.100 m, în is the unit vector normal to the plane of the surface, and the electric field is at an angle of 0 = 59.0° relative to the plane of the surface. A n Assuming that the field is uniform over the region shown, what is the magnitude E of the electric field?...
Two flat surfaces are exposed to a uniform, horizontal magnetic field of magnitude 0.46 T. When viewed edge-on, the first surface is tilted at an angle of 14° from the horizontal, and a net magnetic flux of 8.50 x 10-3 Wb passes through it. The same net magnetic flux passes through the second surface. (a) Determine the area of the first surface. m2 (b) Find the smallest possible value for the area of the second surface. m2
(a) The electric field in a certain region is E (4.0)) N/C. Determine the electric flux due to this freld through an area represented by the vector A (1.51-7.k) m 29 How is the flux defined in terms of the electric field vector, and the area vector? Review dot product rules. 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 -(1.51-7.3)...
56. A surface completely surrounds a +2.0 × 10-6 C charge. Find the electric flux through this surface when the surface is (a) a sphere with a radius of 0.50 m, (b) a sphere with a radius of 0.25 m, and (c) a cube with edges that are 0.25 m long. 57. A circular surface with a radius of 0.057 m is exposed to a uniforrm external electric field of magnitude 1.44 × 104 N/C. The magnitude of the electric...
The drawing shows an edge-on view of two planar surfaces that intersect and are mutually perpendicular. Surface 1 has an area of 2.0 m2, while surface 2 has an area of 2.5 m2. The electric field E in the drawing is uniform and has a magnitude of 210 N/C It is directed towards the two perpendicular surfaces, making an angle 350 ith the bottom surface. Find the electric flux through (a) surface 1 and (b) surface 2. Surface 1 35...
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