A conducting spherical shell has inner and outer radii = 0.12 m and r= 0.15 m, respectively. As shown in the figure, a concentric insulating sphere of radius re 0.05 m is located inside the spherical shell. The insulating sphere has a charge of 10,7 nC uniformly distributed over its volume and the conducting shell has a charge of -2 nC. (Take Coulomb's constant as k 9GNm²/C². Note that nC 10 °C, GN 10' N) ra rb rc AMA O. c) Determine the magnitude of the electric field at point P, a distance rp = 0.10 m from the center of the Insulating sphere, in N/C.
A conducting spherical shell has inner and outer radii = 0.12 m and r= 0.15 m, respectively. As shown in the figure, a concentric insulating sphere of radius re 0.05 m is located inside the spherical shell. The insulating sphere has a charge of 10,7 nC uniformly distributed over its volume and the conducting shell has a charge of -2 nC. (Take Coulomb's constant as k 9GNm²/C². Note that nC 10 °C, GN 10' N) ra rb rc AMA O. c) Determine the magnitude of the electric field at point P, a distance rp = 0.10 m from the center of the Insulating sphere, in N/C.
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![A conducting spherical shell has inner and outer radii r = 0.12 m and = 0.15 m, respectively. As shown
in the figure, a concentric insulating sphere of radius r = 0.05 m is located inside the spherical shell. The
insulating sphere has a charge of 10,7 nC uniformly distributed over its volume and the conducting shell
has a charge of -2 nC. (Take Coulomb's constant as k 9GNm²/C2. Note that
nC 10 °C, GN= 10' N)
rb
(c) Determine the magnitude of the electric field at point P, a distance rp = 0.10 m from the center of the
insulating sphere, in N/C.
A conducting spherical shell has inner and outer radii = 0.12 m and r = 0.15 m. respectively. As shown
in the figure, a concentric insulating sphere of radius r. = 0.05 m is located inside the spherical shell. The
insulating sphere has a charge of 10,7 nC uniformly distributed over its volume and the conducting shell
has a charge of -2 nC. (Take Coulomb's constant as k = 9GNm²/C². Note that
nC 10 °C, GN - 10°N)
rb
rc
o.
P
(b) Calculate the potential on the outer surface of the conducting shell, in N m/C.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F640887de-34e2-4fb5-a217-028aef2f5eb9%2Fedbead55-0af2-4c2f-9caf-1bf1b2afe8f1%2Foujbr3o_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A conducting spherical shell has inner and outer radii r = 0.12 m and = 0.15 m, respectively. As shown
in the figure, a concentric insulating sphere of radius r = 0.05 m is located inside the spherical shell. The
insulating sphere has a charge of 10,7 nC uniformly distributed over its volume and the conducting shell
has a charge of -2 nC. (Take Coulomb's constant as k 9GNm²/C2. Note that
nC 10 °C, GN= 10' N)
rb
(c) Determine the magnitude of the electric field at point P, a distance rp = 0.10 m from the center of the
insulating sphere, in N/C.
A conducting spherical shell has inner and outer radii = 0.12 m and r = 0.15 m. respectively. As shown
in the figure, a concentric insulating sphere of radius r. = 0.05 m is located inside the spherical shell. The
insulating sphere has a charge of 10,7 nC uniformly distributed over its volume and the conducting shell
has a charge of -2 nC. (Take Coulomb's constant as k = 9GNm²/C². Note that
nC 10 °C, GN - 10°N)
rb
rc
o.
P
(b) Calculate the potential on the outer surface of the conducting shell, in N m/C.
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