The net charge enclosed at a point in the cavity a distance r from the centre is :
0 nC.
it is so because the charges always reside on the surface of the conducting spherical shell, and hence there is no charge inside the spherical shell.
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Question 5 Not yet answered Points out of 5.00 P Flag question A conducting spherical shell...
Question 6 Not yet answered Points out of 5.00 P Flag question A conducting spherical shell with a cavity, has inner radius R1 and outer radius R2. The shell has a net positive charge 8.2 nC. A particle with charge 27.6 nC is placed at the center of the cavity. (b) The net charge enclosed at a point outside the shell, at distance r from the center, where r> R2.is: Select one: O a. 35.80 nC b. 27.6 nc O...
Question 6 Not yet answered Points out of 5.00 p Flag question A conducting spherical shell with a cavity, has inner radius R1 and outer radius R2. The shell has a net negative charge -8.2 nC. A particle with charge 27.6 nC is placed at the center of the cavity. (b) The net charge enclosed at a point outside the shell, at distance r from the center, where Ri«r < R2 is: Select one: . a. 8.2 nc .b. 19.40...
2 part question? A conducting spherical shell with a cavity, has inner radius Ri and outer radius R2. The shell has a net negative charge -8.2 nC. A particle with charge +27.6 nC is placed at the center of the cavity. (a) The net charge enclosed at a point in the cavity, a distance r from the center, is: Select one: a. -8.2 nc b. 27.6 nc c. 19.40 nc d. -19.40 nc e. Onc A conducting spherical shell with...
A conducting spherical shell with a cavity, has inner radius R1 and outer radius R2. The shell has a net positive charge 8.2 nC. A particle with charge 27.6 nC is placed at the center of the cavity. (a) The net charge enclosed at a point in the cavity, a distance r from the center, is: Select one: a. 8.2 nc O b. 35.80 nC c. 27.6 nc d. Onc O e. -19.40 nc (b) The net charge enclosed at...
A conducting spherical shell with a cavity, has inner radius R. and outer radius R2 The shell has a net negative charge -8.2 nC. A particle with charge 27:6 nC is placed at the center of the cavity (b) The net charge enclosed at a point outside the shell, at distance r from the center, where Ri <r< R2 is: Select one: O a. 35.80 nC b. 27.6 nc O c. 8.2 nc O d. Onc e. 19.40 nc
A conducting spherical shell with a cavity, has inner radius R. and outer radius R2. The shell has a net negative charge -8.2 nC. A particle with charge +27.6 nC is placed at the center of the cavity. (a) The net charge enclosed at a point in the cavity, a distance r from the center, is: Select one: a. 19.40 nC Ob.-8.2 nc c. O nc | d. 27.6 IC e.-19.40 nC A conducting spherical shell with a cavity, has...
A conducting spherical shell with a cavity has inner radius R. and outer radius R2. The shell has a net negative charge -8.2 nC. A particle with charge +27.6 nC is placed at the center of the cavity (a) The net charge enclosed at a point in the cavity, a distance r from the center, is: Select one: O a.-8.2 nc Ob 19.40 nc O c.-19.40 nc O d. On O e. 27.6 nc
A conducting spherical shell with a cavity, has inner radius R. and outer radius R2 The shell has a net negative charge -8.2 nC. A particle with charge +27.6 nC is placed at the center of the cavity (a) The net charge enclosed at a point in the cavity, a distance r from the center, is:
Completion Status Moving to another question will save this response Question 4 A spherical conducting shell has an inner radius 2 cm and outer radius 5 cm. The conductor creries a charge 32 nC. If we insert other charge 12 oC the center of the what is going to be the net charge (in nC) on the outer surface of the shell? Moving to another question will save this response lenovo
A point charge is located at the center of a conducting spherical shell with inner radius of R1 and outer radius of R2. The figure to the right is a plot of the net flux versus the distance r from the center 40 30 10 R2 r (m) 30 (a) Determine the magnitude and sign of the point charge at the center of the shell. (b) Determine the charge on the spherical shell