a gaussian hemisphere surface with a circular base with 3 point charges wherein q1 is negative and q2 and q3 is positive. Find the electric flux in the circular base wherein electric flux in the hemisphere is E. note that (q1+q2+q3=0)
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a gaussian hemisphere surface with a circular base with 3 point charges wherein q1 is negative and q2 and q3 is positive. Find the electric flux in the circular base wherein electric flux in the hemisphere is E. note that (q1+q2+q3=0)
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- A conducting spherical shell of inner radius A and outer radius B has a positive volume charge density p and a negative point charge Q = -T(B³ – 4°)P located at its center. Find the magnitude of the electric field E at the points r > B in terms of A, B, r, p, and ɛ, BA line of charge lying along the x-axis starts at x=+x0 and extends to positive infinity. It has a nonuniform linear charge density λ=8λ0x0/x, where λ0 is a positive constant. The magnitude of the electric field at the origin O isA 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/C
- 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 /CA charge q = +3.05 ?C is located at the center of a regular tetrahedron (a four-sided surface) as in figure below. (a) Find the magnitude of the total electric flux through the tetrahedron. Answer in N · m2/C (b) Find the magnitude of the electric flux through one face of the tetrahedron. Answer in N · m2/C
- The figure shows two thin concentric conducting spherical shells. The inner shell carries a net charge of Q1=-10 nC and the outer one carries a net charge of Q2= 11.6 nC. Find the magnitude of the electric field E (in N/C) at the shown point (A) which is located at a distance r = 0.3 m away from the common center.a spherical nonconducting shell carrying a net positive charge 18 μC uniformly distributed through its volume. It has an inner radius a = 2.5 cm and outer radius b = 6.5 cm . Using Gauss' law, Find the magnitude of the electric field at radial distance; part B : r=5cm , part C : r=12cm ???? Need typed solutionGaussian surface 1 has twice the area of Gaussian surface 2. Both surfaces enclose the same charge Q. Is the electric flux through surface 1 greater than, less than, or the same as the electric flux through surface 2?