The electric flux through a square-shaped area of side 5 cm near a large charged sheet is found to be 3x10^-5 N⋅m2/C when the area is parallel to the plate. Find the charge density on the sheet.
The electric flux through a square-shaped area of side 5 cm near a large charged sheet...
The electric flux through a square-shaped area of side 5 cm near a large charged sheet is found to be 3×10−5 N⋅m2/C when the area is parallel to the plate. Find the charge density on the sheet. Select the correct answer 0 9.80 10-14 C/m2 0 3.71 10-13C/m2 O 2.12 x 10-13 C/m2 O 1.75 x 10-13 C/m2 O 5.92 x 10-13 C/m2
Two charged, square plates, separated by a distance of 22.8 cm and each with a side length of 37.4 cm, make up a parallel-plate capacitor. The electric field inside the plates is 2.00×103 N/C. If the charge is doubled, what would the electric field inside the plates become?
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...
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.)...
Please Help!!!!!!!! 14. A non-conducting, thin sheet of charge carries a uniform area charge density of 5.20 nC/m2. Find the magnitude of the electric field (in N/C) at a distance 8.70 cm above the sheet. 15. A charge of 7.00 nC is placed 10.0 em above a square plate with sides exactly twice that len What is the electric flux (in N m/C) through the plate? (Hint: think of the plate as one wall of a cube with the charge...
Each plate of a parallel-plate capacitor is a square of side 0.0387 m, and the plates are separated by 0.503 x 10-3 m. The capacitor is charged and stores 7.57 x 10-9 J of energy. Find the electric field strength E inside the capacitor. E-9.37 ×10 N/C
Question 3 Two charged, square plates, separated by a distance of 15.9 cm and each with a side length of 21.5 cm, make up a parallel-plate capacitor. The electric field inside the plates is 1.00x103 N/C If the charge is doubled, what would the electric field inside the plates become? 1.00E+03 N/C 250. N/C O 2.00E+03 N/C O 500. N/C
1 A capacitor is constructed from a pair of thin square plates of side-width /(i.e. Area-P) and separation 3d. Let's assume 3d<<I. A solid square conducting plate of thickness d with the same side-width I (i.e. Area - P) is inserted between the plates as shown below Charge +0 is supplied on the top plate and-0 is supplied on the bottom plate. What is the electric field E between the conductors? (Express E by Q.d l and &) a) b)...
1 A capacitor is constructed from a pair of thin square plates of side-width (i.e. Area - P and separation 3d. Let's assume 3d<<I. A solid square conducting plate of thickness d with the same side-width I (i.e. Area -P) is inserted between the plates as shown below. Charge+0 is supplied on the top plate and -0 is supplied on the bottom plate. What is the electric field E between the conductors? (Express E by Q, d, l and &)...
Hi everyone, can you answer this please?What i must write for unit area? A flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is immersed in a uniform electric field of magnitude 95.0 N/C that is directed at 20° from the plane of the sheet (Figure 1). Part A Find the magnitude of the electric flux through the sheet. Express your answer to two significant figures and include the...