A current I=2 Amperes flows in a circular single loop coil of radius R=10 cm.
(a) Evaluate the magnitude of the magnetic field (in Tesla) at a point P on the axis of the coil, and a distance z =5 cm away from the plane of the coil itself.
Now consider two N-turn circular coils of radius R, each perpendicular to the axis of symmetry, with their centers located at z=±l/2 . There is a steady current I flowing in the same direction around each coil, as shown in the figure below.
(b) Assuming the N=100, I=2 Amperes, R=10 cm, l=2 cm calculate the magnitude of the magnetic fied (in Tesla) at a distance z=0.5 cm from the midpoint between the centers of the two coil.
(c) Evaluate the first derivative with respect to z of the magnetic field calculated in part (b) using the same values for the parameters. Express your answer in Tesla per meter.
C) Calculate the second derivative with respect to z of the magnetic field calculated in part (b) using the same values for the parameters. Express your answer in Tesla per meter^2
a)0.0000090020201102748
b)0.0025
c) First part -0.00358179
Anyone for second part of part c) Tesla per metre square?
Third and Last part of c) is 0 by the way.
second part for c) Tesla per square meter please?
Anyone for second part for c) Tesla per square meter please?
Anyone for C) Tesla per square meter please?
Abdul Rahman do you have Problem 2 please?
Yes please Problem 2!
URGENT !! PROBLEM 2 !! D:
Problem 2 is answered now Ruben, look at my profile. Do you have by any chance Problem 3 c) second part?
tesla in square meter
The second part in c) problem 3 it's tricky ... i didn't got yet. ):
Please angle in the Aurora Zone ??
That is easy Luis it is 18.
Please let me know anyone who cracks second answer part c)?
thanks