As shown in Figure 2., its center is at x=0, y=r, z=0 and its center is at x=0, y=-r, z=0, placed so that parallel to t
Posted: Tue Apr 26, 2022 1:58 pm
As shown in Figure 2., its center is at x=0, y=r, z=0 and its
center is at x=0, y=-r, z=0, placed so that parallel to the
z-axis carrying 2I and I direct currents, respectively. The
total magnetic flux density vector formed at the origin due to two
wires of 2L length:
a-) Find using magnetic vector potential (𝐴⃑) (Hint: Cylindrical
coordinate solution).
b-) In case of 𝐿→∞, what would be the result you found in part
a)?
Note: solutions should contain details.
N N I 21 -r r у Х
center is at x=0, y=-r, z=0, placed so that parallel to the
z-axis carrying 2I and I direct currents, respectively. The
total magnetic flux density vector formed at the origin due to two
wires of 2L length:
a-) Find using magnetic vector potential (𝐴⃑) (Hint: Cylindrical
coordinate solution).
b-) In case of 𝐿→∞, what would be the result you found in part
a)?
Note: solutions should contain details.
- As Shown In Figure 2 Its Center Is At X 0 Y R Z 0 And Its Center Is At X 0 Y R Z 0 Placed So That Parallel To T 1 (28.93 KiB) Viewed 35 times