with explanation A solid spherical conductor is given a net nonzero charge. The electrostatic potential of...
A solid spherical conductor is charged positively and in electrostatic equilibrium. Which of the following is true. a. the total charge on the conductor must be zero. b. the electric field inside the conductor must be zero. c. any charges on the conductor must be uniformly distributed throughout the sphere. d. the electric field lines are radialy inward from the surface.
2. Potentials and a Conducting Surface The electric potential outside of a solid spherical conductor of radius R is found to be V(r, 9) = -E, cose (--) where E, is a constant and r and 0 are the spherical radial and polar angle coordinates, respectively. This electric potential is due to the charges on the conductor and charges outside of the conductor 1. Find an expression for the electric field inside the spherical conductor. 2. Find an expression for...
(a) How much charge is on the surface of an isolated spherical conductor that has a 9.5 cm radius and is charged to 1.80 kV? (b) What is the electrostatic potential energy of this conductor? (Assume the potential is zero far from the sphere.)
A solid, spherical plastic ball (of radius a) is given a net charge of +4Q Coulombs. The charge is distributed uniformly throughout the volume of the ball. a.) Determine the total charge enclosed by a Gaussian surface of radius r = a/2 b.) Use Gauss's Law to determine an expression for the electric field at r = a/2. Use the symbol kE in your answer. Do not forget to include a unit vector, since the electric field is a vector.
C and D please ! AZ The figure shows a solid spherical conductor of radius R placed a height d directly above the centre of a square conducting plate of area A. The sphere has a net charge of +Q and the plate has a net charge of -Q, and the system is in electrostatic equilibrium (a) Sketch the equilibrium charge and field distributions. Describe two characteristics of the charge and field configurations of conductors in equilibrium as illustrated by...
A solid metal sphere is given a net charge -Q. How is the charge distributed in or on the sphere? A) It is concentrated at the center of the sphere. B) It is uniformly distributed throughout the volume of the sphere. C) Its charge density decreases radially outward from the center. D) Its charge density increases radially outward from the center. E) It is uniformly distributed on the surface of the sphere. explain please
Show the steps. Thank you 9. An isolated spherical spherical capacitor has charge +Q on its inner conductor (radius ra) and charge-Q on is outer conductor (radius rb). Half of the volume between the conductors is then filled with a liquid dielectric of constant K. Given [ra, Tb, Q, K] Determine: a. the capacitance of the half filled capacitor. b. The Electric Field in the volume between the two conductors as a function of distance r from the center of...
The electric potential inside a charged conductor in electrostatic equilibrium A. Is zero B. Is highest at a sharp corner C. Is lowest at a sharp corner D. Depends on the net charge of the conductor
Problem 4. A solid conductor has three spherical cavities. Each cavity contains a point charge as shown The charge on the outer surface of the conductor is 12.0 nC 12 nC 20 nC 15 n -30 n (a) What is the charge on the surface of each cavity? (b) What is the excess (added) charge on the conductor? (c) What is the field at a point in the cavity on the left located 2.00 cm from the the 20nC charge?...