Share
In terms of the dc current I, how much magnetic energy is stored in the insulating medium of a 3- m-long, air –filled section of a coaxial t
Question
In terms of the dc current I, how much magnetic energy is stored in the insulating medium of a 3- m-long, air –filled section of a coaxial transmission line, given that the radius of the inner conductor is 5 cm and the inner radius of the outconductor is 10 cm? Use two methods. One is to take the coaxial line an inductor and calculate the energy using . The other is integrate the energy density over the volume.
in progress
0
Physics
4 years
2021-08-16T14:56:05+00:00
2021-08-16T14:56:05+00:00 1 Answers
104 views
0
Answers ( )
Answer:
The answer is 138.5
Explanation:
STEP 1:
The inductance per unit length of a coaxial transmission line is
L′=L/ I
=Ø/H
=μoI/2π In (b/a)
In this a is the radius of inner conductor
b is the radius of outer conductor
I is the coaxial transmission
μ is the magnetic permeability
Since the transmission of the charge exists in air, the value of the relative permeability is μr= I and permeability of free space is μo= 4π x 10-7 H/m . So the magnetic permeability will be
μ = μoμ r
μ =μ o(I) 4π x 10-7 H/m
L′= μoI/2π In (b/a)
= (4π x 10-7 ) (2)/2π In (10/5)
=2.77 x 10-7 H
STEP 2:
Obtain the magnetic energy stores in the magnetic field H of a volume of the coaxial transmission line containing a material with permeability μ, by using the formula given below:
Wm= 1/2 LI^2
= 1/2 (2.77x 10^-7 I^2
= 138.5 X 10^-9 I^2 J
Now we will simplify the equation
Wm= 185.5I^2 nJ
So, the magnetic energy stored in insulating medium is 185.5I^2 nJ