A point charge q sits at a corner of a cube of side a, as shown in the figure on the right. The flux of the electric field vector through the shaded side is (a) q 8⁹0 (b) q 16⁹0 (c) q 2480 (d) q 680
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- The volume charge density of the long hollow cylinder, shown in the figure below, is rho= 4 ×10^−5 C/m^3 . Let a be the inner radius and b be the outer (total) radius. If a= 10 cm and b= 15 cm. Find the electric field at: a) r=5 cm b) r=12 cm c) r=25 cmIn (Figure 1), two objects, O1O1 and O2O2, have charges +4.0μC+4.0μC and −3.5μC−3.5μC, respectively, and a third object, O3O3, is electrically neutral. a) What is the electric flux through the surface A1A1 that encloses all three objects? b) What is the electric flux through the surface A2A2 that encloses the third object only?A vertical wall (6.3 mx 3.3 m) in a house faces due east. A uniform electric field has a magnitude of 210 N/C. This field is parallel to the ground and points 34° north of east. What is the electric flux through the wall? Number: Units
- 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 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