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- 8) A standard clock of radius R has an electrical short that charges up the black metal rim of thickness L with a uniform surface charge density o produces a potential V at point above the center of the disk at point P, as shown. Determine the electric field vector at point P, which is a distance d above the center of the clock. R 144- a) Find an expression for the capacitance of a cylindrical capacitor. The structure of the capacitor is a cylindrical shell inside another cylindrical shell. The length of the cylinders is L, and their radii are a and b, with a < b as shown in the figure. b) Calculate the electrostatic energy stored in the capacitor if it is charged to 24 Volt, a = 5 mm, b = 10 mm, and L = 10 cm. (ε = 8.85 × 10-¹2 F/m).An electric potential produced by some distribution of charge in a region is given by the equation V= 4xy2 - 3z²x + 15y²z with V in volts and the coordinates in meters. Determine the z-component of electric field (in kV/m) at the point (1.0, 3.0, 2.0) m.
- 2) A force field is given by F = (-8x + 5yz)i + (5xz-6yz)į + (5xy - 3y')k Determine the associated potential function for this force field if at x = y = z = 1, U=3 JA 10 cm2 parallel plate capacitor has its plates separated by 5 x 10-4 m thick paper. Find the capacitance of the capacitor. (κpapel = 3,7)A metallic sphere of radius 10 cm has a charge of 5μC. What is the electric potential at 5 cm
- The spacing between the plates of a 3.2 µF capacitor is 0.010 mm. What is the surface area of the plates? Type your numeric answer and submit 3.615 ☑ You are incorrect5) The electric potential of a solid insulating sphere of radius R with electric charge Q is described by the equations; V (r) : KQ for r> R, V(R) KQ for r= R, r and, V (r) = KQ for rWhat is the magnitude of the electric field at the point (8.10i - 5.80j+9.40 k) m if the electric potential is given by V= 8.50xyz?, where Vis in volts and x, y, and z are in meters?Recommended textbooks for youCollege PhysicsPhysicsISBN:9781305952300Author:Raymond A. Serway, Chris VuillePublisher:Cengage Learning
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