There is an electric flux of 22.5 N-m²/C through the square region shown in the figure. Each side of the square has a length of 0.100 m, A is the unit vector normal to the plane of the surface, and the electric field is at an angle of @ 101.0 relative to the plane of the surface. Assuming that the field is uniform over the region shown, what is the magnitude E of the electric field?
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Q: The drawing shows an edge-on view of two planar surfaces that intersect and are mutually…
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A: Ē= -1328.7 (N/C)i. Electric field is toward center of coaxial rings at point P.
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Q: ingula or simplicity, only one field line is shown in the diagram below. b a sa (a) What is the…
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Q: A uniform electric field with a magnitude of 1.25x105 N/C passes through a rectangle with sides of…
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Q: The drawing shows an edge-on view of two planar surfaces that intersect and are mutually…
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A: Here is the step-by-step explanation:Stepe 1: Use formula:We will use the formula, to calculate the…
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Q: Consider a triangle in the presence of a uniform electric field given by 5.6 i N/C. The endpoints of…
A: Please see the answer below.
Q: A uniform electric field of magnitude 5.5 x 104 N/C passes through the plane of a square sheet with…
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Q: A flat sheet is in the shape of a rectangle with sides of lengths 0.400 m and 0.600 m. The sheet is…
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- A uniform electric field of magnitude 3.6×104N/C is at an angle of 80° to a square sheet with sides 8.5 m long. What is the electric flux through the sheet?An electric field 7 N/C is passing through a region of area 2.1 m² in the xy-plane. If the electric field makes an angle of 56° with respect to the area vector perpendicular to the region, calculate the electric flux magnitude (in N-m²/C) through the region.Problem 1: Part (a) Express the magnitude of the electric field between the two plates, E, in terms of the charge q on one plate, its area A, and ε0. E = ______ Part (b) Express the electric flux ΦE, in terms of q and ε0. ΦE = ______ Part (c) Express the derivative of ΦE with respect of time t in terms of I and ε0. dΦE/dt = ______ Part (d) What is the displacement current which is passing through the capacitor in amps? ID = ______ A
- The figure shows a prism‑shaped object that is 40.0 cm high, 30.0 cm deep, and 80.0 cm long. The prism is immersed in a uniform electric field of 700 N/C directed parallel to the x-axis. Calculate the electric flux ΦI out of Surface I (the back surface). Calculate the electric flux ΦII out of Surface II (the bottom surface). Calculate the electric flux ΦIII out of Surface III (the left end). Calculate the electric flux ΦIV out of Surface IV (the right end). Calculate the electric flux ΦV out of Surface V (the front surface). Calculate the net electric flux Φ out of the entire closed surface.A Gaussian surface in the form of a hemisphere of radius R = 5.84 cm lies in a uniform electric field of magnitude E = 2.20 N/C. The surface encloses no net charge. At the (flat) base of the surface, the field is perpendicular to the surface and directed into the surface. (a) What is the flux through the base? ______________N · m2/C(b) What is the flux through the curved portion of the surface? _______________N · m2/CA hollow sphere of radius .05m contains a negative charge sitting right at its center. (The sphere itself is not charged.) The electric field everywhere on the surface of the sphere has the magnitude 3.0*10^-4 N/C. Draw the sphere and show the electric field vectors on your drawing. What is the total electric flux through the surface of the sphere?
- For a given surface, the electric flux, PE, is proportional to the number of field lines through the surface. For a uniform electric field, the maximum electric flux is equal to the product of electric field at the surface and the surface area (i.e., EA). The electric flux is defined to be positive when the electric field E has a component in the same direction as the area vector A and is negative when the electric field has a component in the direction opposite to the area vector. C. Sketch vectors A and Ē such that the electric flux is: Positive Negative ZeroThe figure below shows a uniform electric field of magnitude E = 470 N/C making an angle of ? = 61.0° with a flat surface of area A = 3.10 m2. What is the magnitude of the electric flux through this surface (in N · m2/C)?A uniform electric field with a magnitude of 1.25x105 N/C passes through a rectangle with sides of 2.50 m and 5.0 m . If the electric flux through the rectangle is 6.6x105 Nm2/C , the vector normal to the rectangular surface ?
- A disk of radius 0.10 m is oriented with its normal unit vector at 35° to the uniform electric field E of magnitude 2.5 kN/C. a)What is the electric flux through the disk? b)What is the flux through the disk if it is turned so that its normal unit vector is perpendicular to E? c)What is the flux through the disk if its normal unit vector is parallel to E?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 90.0 N>C that is directed at 20° from the plane of the sheet. Find the magnitude of the electric flux through the sheet.A nonuniform electric field is directed along the x-axis at all points in space, as shown in the figure. The diameter of the cylindrical surface id of 0.20 m. If the electric fields E1 and E2, at the ends of the cylindrical surface, have magnitudes of 2009.5 N/C and 1193.7 N/C respectively, find the net charge (in pC) in this cylindrical surface? 0.20 m E 0.80 m a. 890.59 Ob.-2268.18 O C. -226.82 O d. -890.59 O e. 226.82