A coaxial cable has inner conductor radius a=6.3cm and outer conductor radius b=23.7cm. The medium between the two conductors is free space. The line charge density is p=8.6nC/m as shown in the figure Static electric energy stored in the insulator region in 1m length along the z-axis is= Electric energy density at p=18.15cm is= J/m3 Stored energy inside inner conductor in 1m length along the z-axis We=
A coaxial cable has inner conductor radius a=6.3cm and outer conductor radius b=23.7cm. The medium between the two conductors is free space. The line charge density is p=8.6nC/m as shown in the figure Static electric energy stored in the insulator region in 1m length along the z-axis is= Electric energy density at p=18.15cm is= J/m3 Stored energy inside inner conductor in 1m length along the z-axis We=
Chapter5: Electric Charges And Fields
Section: Chapter Questions
Problem 88P: Charge is distributed along the entire x-axis uniform density . How much work does the electric...
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![A coaxial cable
has inner
conductor radius
a=6.3cm and
outer conductor
radius b=23.7cm.
The medium
between the two
conductors is
free space.
The line charge density is p=8.6nC/m as shown in
the figure
Static electric energy stored in the insulator
region in 1m length along the z-axis is=
Electric energy density at p=18.15cm is=
J/m3
Stored energy inside inner conductor in 1m
length along the z-axis We=](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F86e16b22-28c9-4124-9121-a98400ee9516%2F46977faf-1646-4474-83ba-e534e4f2f240%2F12jljvd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A coaxial cable
has inner
conductor radius
a=6.3cm and
outer conductor
radius b=23.7cm.
The medium
between the two
conductors is
free space.
The line charge density is p=8.6nC/m as shown in
the figure
Static electric energy stored in the insulator
region in 1m length along the z-axis is=
Electric energy density at p=18.15cm is=
J/m3
Stored energy inside inner conductor in 1m
length along the z-axis We=
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