4) A very LONG hollow cylindrical conducting shell (in electrostatic equilibrium) has an inner radius R1 and an outer radius R2 with a total charge -5Q distributed uniformly on its surfaces. Asume th...
Given a hollow spherical conducting shell (in electrostatic equilibrium) has an inner radius R1 and an outer radius R2 with a total charge -2Q distributed uniformly on its surfaces The inside of the hollow spherical conducting shell is filled with nonconducting gel with a total charge of -3Q distributed as p -p.*r (where po is a constant) through out the volume. -20 -5Qfadial for R2 4περη2 -3Q R1rR2 -3Qr2f ΑπερR14 adial 0<IR1 Assume V 0 @r0o 15. Find the absolute...
A hollow insulating spherical shell of inner radius R0 and outer radius R1 is positively charged with a charge density of p(r) = p0(1 – (r/R1)3). A positive charge +Q is placed in the center of the hollow sphere and a concentric grounded conducting shell with inner radius R2 and outer radius R3 surrounds the hollow sphere. (The conducting shell was neutral before it is grounded.) (a) What is the total charge on the insulating sphere? (b) What charges are on the...
Source charge O inside a conducting shell of inner radius Ry and outer radius R2 a conducting shell of inner radius R1 and outer radius R2 +0 (a) Sketch the distribution of charge on the inner and outer surfaces of the conducting shell (assume the conducting shell is neutral) (b) Determine the magnitude of the electric field in the following regions: 0<r<R1 R1 <r<R2
An infinitely long insulting cylindrical shell has inner radius R1 and outer radius R2 and a uniform volume charge density p. Determine E for r<R1 and for R1<r<R2 and for r>R2
A point charge -Q is at the center of a spherical conducting shell of inner radius R1 and outer radius R2 as shown in the figure below. (In the figure there is a around spherical where 2 arrows shoots out from and arrow R1 is distance to the innter radius and R2 is to the outer radius) What is the charge on the inner surface of the shell?
consider a neutral soherically conducting shell of inner radius r1 and outer radius r2. a point charge +q, is placed at tge center (r=0) of the spherically conducting shell. Answer the following questions symbollically in terms of k,r1,r2, and q. a) what is the electric field for r>r1 b) what is the electric field for r2>r>r1? c) what is the electric field for r>r2? d) what is the surface charge density omega1, on the inner surface of the shell? e)...
A conducting spherical shell of inner radius R1 and outer radius R2 has a point charge +q fixed at its center. The spherical shell has a net charge of +aq.Part (a) Enter an expression for the surface charge density on the inner surface of the spherical shell using the variables provided. Part (b) Enter an expression for the surface charge density on the outer surface of the spherical shell using the variables provided. Part (c) The electric field at the surface points...
A perfectly conducting spherical shell has an inner radius a and an outer radius b as shown below. The region r< a is hollow. The entire shell has a net charge of Q IC] on it because it has been stuck by lightning. Determine the electric field vector in all three regions: r<a, a< r b, and r > b. Determine the surface charge densities po and po on the two metal surfaces. Explain how this problem illustrates the Faraday...
Problem 9: A hollow non-conducting spherical shell has inner radius R1 = 8 cm and outer radius R2 = 17 cm. A charge Q =-35 nC lies at the center of the shell. The shell carries a spherically symmetric charge density p = Ar for R1 < r < R2 that increases linearly with radius, where A = 24 uC/m4 .Part(a) Write an equation for the radial electric field in the region r < R1 in terms of Q.r, and Coulomb's...
to A very long cylindrical shell of inner radius a and outer radius 2a is made of a conducting material of conductivity o= kr, where k is a constant and r is measured perpendicularly from the axis of the shell. A potential difference AV is applied across the inner and outer surfaces of the shell, with the inner surface at the higher potential. (a) What is the resistance dR per unit length of the cylinder, for a thin cylindrical shell...