Consider a shape with Radius = 3.5cm Total charge 0.66µC Electric flux in the surface (the round surface of a hemisphere) = 9.8 X 104N.m²/c What is the flux on the flat surface?
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A: Electric flux φ = E̅•A̅ = EA Cosθ
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Q: A flat surface of area 3.50 m² is rotated in a uniform electric field of magnitude E = 5.70 × 105…
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A: It is given that
Q: A closed surface is in the form of a block with length c, width b and height a. In this room there…
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Q: 1) A sphere of radius R centred at the origin, carries charge density: R p(r,0) = C(R - 2r)sint…
A: Given Data: To find: The total charge Q due to the charge distribution. Electric flux due to the…
Q: The figure below shows a uniform electric field of magnitude E = 410 N/C making an angle of = 66.0°…
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Q: Three charges are placed inside a basketball. If the charges are 2.40 nC, -1.36 nC and 0.480 nC,…
A: Given Information:- Three charges inside the basketball is q1=2.40 nC, q2=-1.36 nC, q3=0.480 nC…
Q: The surface shown is a square and has a side length of 15.0 cm. The electric field acting on this…
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Q: There is a cube with sides 4 cm and center at the origin. Inside the cube are two charges, q1 = +9…
A: according to Gauss's theorem electric flux = qenc /ε₀
Q: A spherical shell of radius 1.70 m contains a single charged particle with q = 71.0 nC at its…
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Q: A spherical shell of radius 1.80 m contains a single charged particle with q = 70.0 nC at its…
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Q: A Gaussian surface has the form of a cube. If 4 nC of charge is placed inside the cube and 3 nC of…
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- A flat surface of area 3.10 m² is rotated in a uniform electric field of magnitude E = 6.65 x 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/cThe figure below shows a uniform electric field of magnitude E = 420 N/C making an angle of o = 66.5° with a flat surface of area A = 3.20 m2. What is the magnitude of the electric flux through this surface (in N · m2/C)? E N. m2/cA uniformly charged disk of radius R=25 cm carries a total charge of Q=2 μC. R P 1 Find the magnitude of the electric field E created by the disk at the point P located at distance 40 cm from the center of the disk. E = [N/C] 2. What is the direction of the electric field E created by the disk at point P. Direction: 3. Write the expression of the electric filed E created by the disk at point P. Ē =< [N/C] 4. Find the magnitude of the electric field E created by the disk at the point P located at distance 8 m from the
- Calculate the absolute value of the electric flux for the following situations (In all case provide your answer in N m2/C): a. A constant electric field of magnitude 300 N/C at a 30 degrees angle with respect to the flat rectangular surface shown in the Figure above. b. A uniform electric field E = (70 i + 90 k) N/C through a 4 cm ×5 cm in the x-y plane. c. A uniform electric field E = (−350 i + 350 j + 350 k) N/C through a disk of radius 3 cm in the x-z plane.A 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?A point charge is located at the origin. Centered along the x axis is a cylindrical closed surface of radius 10 cm with one end surface located at x = 2 m and the other end surface located at x = 2.5 m. If the magnitude of the electric flux through the surface at x = 2 m is 4 N . m2 /C, what is the magnitude of the electric flux through the surface at x = 2.5 m? Select one: a. 1.8 N . m2 /C b. 2.56 N . m2 /C c. 1.0 N . m2 /C d. 4.0 N . m2 /C e. 5.0 N . m2 /C
- A closed surface is in the form of a block with length c, width b and height a. In this room there is an electric field parallel to the x axis with magnitude: E = A + Bx, where A and B are constants. a. Determine the total flux over the closed surface. b. Determine the amount of charge covered by the payload. N x = a ko-Pls AsapA cylinder has a volume of 5.2 cm^3 and a charge density of 6.1 μC/cm^3, and is enclosed in a spherical surface with a radius of 17.5 cm. What is the total charge on the cylinder? What is the total electric flux through the surface of the sphere?