Q- 1) As shown in the figure, there exists a non – uniform surface current density given as T, -{*alor" sin r) over S' Ampere/meter Ho elsewhere where S: (asrS2a), 0<¢S2n, z'=0 y In vacuum where Jo is a constant. a) Compute the magnetic vector potential A at the origin O. Hint: Ā = Jsr-r ds' |as Figure 1 %3D b) Compute the magnetic flux density vector B at the origin O. Hint: Biot Savart Law
Q- 1) As shown in the figure, there exists a non – uniform surface current density given as T, -{*alor" sin r) over S' Ampere/meter Ho elsewhere where S: (asrS2a), 0<¢S2n, z'=0 y In vacuum where Jo is a constant. a) Compute the magnetic vector potential A at the origin O. Hint: Ā = Jsr-r ds' |as Figure 1 %3D b) Compute the magnetic flux density vector B at the origin O. Hint: Biot Savart Law
Related questions
Question
Transcribed Image Text:Q- 1) As shown in the figure, there exists a non – uniform surface current density given as
T, -{*alor" sin r) over
S'
Ampere/meter
Ho
elsewhere
where S: (asrS2a),
0<¢S2n,
z'=0
y
In vacuum where Jo is a constant.
a) Compute the magnetic vector potential A at the origin O.
Hint: Ā = Jsr-r
ds'
|as
Figure 1
%3D
b) Compute the magnetic flux density vector B at the origin O.
Hint: Biot Savart Law
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 3 steps with 3 images
