A solid conducting cylinder of radius R1 = 10 cm is fixed coaxially within a cylindrical shell of inner radius R2 = 30 cm and outer radius R3 = 35 cm. The potential difference between the conductors is 9 V; the potential of the cylindrical shell is set to 0 V. This gives a linear charge density of 2 = 4.6x10-10 C/m (+ on surface of inner conductor and – on inner surface of outer conductor). The potential between the conductors varies according to the formula R. R2 3 R, O Potential at the surface of the conductor = 9 V Potential at the center of the conducting cylinder = 9 V O Potential at the surface of the conductor = 0 V Potential at the center of the conducting cylinder = 9 V O Potential at the surface of the conductor = 9 V Potential at the center of the conducting cylinder = 0 V O Potential at the surface of the conductor = 9 V Potential at the center of the conducting cylinder = 0

Transcribed Image Text:

A solid conducting cylinder of radius R1 = 10 cm is fixed coaxially within a cylindrical shell of inner radius R2 = 30 cm and outer radius R3 = 35 cm. The potential difference between the conductors is 9 V; the potential of the cylindrical shell is set to 0 V. This gives a linear charge density of 1 = 4.6x10-10 C/m (+ on surface of inner conductor and – on inner surface of outer conductor). The potential between the conductors varies according to the formula R3 |R, R, Potential at the surface of the conductor = 9 V Potential at the center of the conducting cylinder = 9 V O Potential at the surface of the conductor = 0 V Potential at the center of the conducting cylinder = 9 V Potential at the surface of the conductor = 9 V Potential at the center of the conducting cylinder = 0 V Potential at the surface of the conductor = 9 V Potential at the center of the conducting cylinder = 0