A flat piece of cardboard with area 29.0 cm2 is immersed in a uniform electric field...
A flat piece of cardboard with area 29.0 cm2 is immersed in a uniform electric field of strength 1.40×103 N/C. If the angle between the field and the cardboard’s area vector is 56.0°, find the electric flux through the cardboard.
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A flat piece of cardboard with area 29.0 cm2 is immersed in a
uniform electric field...
A flat, 172-turn, current‑carrying loop is immersed in a uniform magnetic field. The area of the...
A flat, 172-turn, current‑carrying loop is immersed in a uniform magnetic field. The area of the loop is 6.55 cm2 and the angle between its magnetic dipole moment and the field is 30.5∘. Find the strength B of the magnetic field that causes a torque of 1.23×10−5 N⋅m to act on the loop when a current of 2.73 mA flows in it.
A flat surface of area 3.10 m2 is rotated in a uniform electric field of magnitude...
A flat surface of area 3.10 m2 is rotated in a
uniform electric field of magnitude E = 5.20 105 N/C.
(a) Determine the electric flux through this area when the
electric field is perpendicular to the surface.
N · m2/C
(b) Determine the electric flux through this area when the electric
field is parallel to the surface.
N · m2/C
A square surface of area 5 cm2 is in a space of uniform electric field of...
A square surface of area 5 cm2 is in a space of uniform electric field of magnitude 104 N/C . The amount of flux through it depends on how the square is oriented relative to the direction of the electric field. Find the electric flux (in N · m2/C) through the square, when the normal to it makes the following angles with the electric field. Note that these angles can also be given as 180° + θ. (Enter the magnitudes.)...
A flat 1.20 × 102-turn current-carrying loop is immersed in a uniform magnetic field. The area...
A flat 1.20 × 102-turn current-carrying loop is immersed in a uniform magnetic field. The area of the loop is 7.09 × 10-4 m2 and the angle between its magnetic dipole moment and the field is 55.5°. Find the strength of the magnetic field that causes a torque of 2.33 × 10-5 N·m to act on the loop when a current of 0.00399 A flows in it.
A flat surface of area 2.60 m2 is rotated in a uniform electric field of magnitude...
A flat surface of area 2.60 m2 is rotated in a uniform electric field of magnitude E-5.90 x 105 N/C. (a) Determine the electric flux through this area when the electric field is perpendicular to the surface. The correct answer is not zero. N m2/C (b) Determine the electric flux through this area when the electric field is parallel to the surface. 15 34 Your response differs significantly from the correct answer. Rework your solution from the beginning and check...
A flat surface with area 0.14m^2 lies in the x-y plane, in a uniform electric field...
A flat surface with area 0.14m^2 lies in the x-y plane, in a uniform electric field given by E= 5.1i^+2.1j^+3.5k^ kN/C. find the flux through this surface
A flat sheet of paper of area 0.235 m2 is oriented so that the normal to...
A flat sheet of paper of area 0.235 m2 is oriented so that the normal to the sheet is at an angle of 56∘ to a uniform electric field of magnitude 12 N/C. a. Find the magnitude of the electric flux through the sheet. b. Does the answer to part A depend on the shape of the sheet? c. For what angle ϕ between the normal to the sheet and the electric field is the magnitude of the flux through...
A flat sheet of paper of area 0.140 m2 is oriented so that the normal to...
A flat sheet of paper of area 0.140 m2 is oriented so that the normal to the sheet is at an angle of 68 ∘ to a uniform electric field of magnitude 18 N/C . Part A. Find the magnitude of the electric flux through the sheet. Part B. Does the answer to part A depend on the shape of the sheet? Part C. For what angle ϕ between the normal to the sheet and the electric field is the...
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 square sheet with sides 3.05 meters long is held in a uniform electric field of...
A square sheet with sides 3.05 meters long is held in a uniform electric field of magnitude 1.1×104 N/C. The sheet is oriented at an angle of 60° to the electric field direction (that is, the surface normal vector for the flat slide of the sheet makes a 60° angle relative to the electric field vector). What is the electric flux through the sheet ? Answer is in _____x10^4 Nm^2/C.
A flat surface of area 3.10 m2 is rotated in a
uniform electric field of magnitude E = 5.20 105 N/C.
(a) Determine the electric flux through this area when the
electric field is perpendicular to the surface.
N · m2/C
(b) Determine the electric flux through this area when the electric
field is parallel to the surface.
N · m2/C
A flat surface of area 2.60 m2 is rotated in a uniform electric field of magnitude E-5.90 x 105 N/C. (a) Determine the electric flux through this area when the electric field is perpendicular to the surface. The correct answer is not zero. N m2/C (b) Determine the electric flux through this area when the electric field is parallel to the surface. 15 34 Your response differs significantly from the correct answer. Rework your solution from the beginning and check...
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....
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