The region between two concentric conducting cylinders with radii of 2 and 5 cm contains a volume charge distribution of −10-³(1 + 10r) C/m³. If E and V both are zero at the inner cylinder and E = E, the potential Vat the outer cylinder will be (a) 0.506 V c) 50.6 V (b) 5.06 V (d) 506 V [ESE-1999]
The region between two concentric conducting cylinders with radii of 2 and 5 cm contains a volume charge distribution of −10-³(1 + 10r) C/m³. If E and V both are zero at the inner cylinder and E = E, the potential Vat the outer cylinder will be (a) 0.506 V c) 50.6 V (b) 5.06 V (d) 506 V [ESE-1999]
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![The region between two concentric conducting
cylinders with radii of 2 and 5 cm contains a volume
charge distribution of -10 (1 + 10r) C/m³. If E
and V both are zero at the inner cylinder and
E = E, the potential Vat the outer cylinder will be
(a) 0.506 V
(c) 50.6 V
(b) 5.06 V
(d) 506 V
[ESE-1999]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F53391419-dae7-4426-9951-fee4244d677d%2F18c4f37d-bd92-4dfb-98cc-25cf8595a5bb%2F1z0b14_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The region between two concentric conducting
cylinders with radii of 2 and 5 cm contains a volume
charge distribution of -10 (1 + 10r) C/m³. If E
and V both are zero at the inner cylinder and
E = E, the potential Vat the outer cylinder will be
(a) 0.506 V
(c) 50.6 V
(b) 5.06 V
(d) 506 V
[ESE-1999]
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