Solving for magnetic field from a solonoid

Patdon10
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Homework Statement



The figure below shows a Helmholtz coil used to generate uniform magnetic fields. Suppose the Helmholtz coil consists of two sets of coaxial wire loops with 17 turns of radius R = 76.6 cm, which are separated by R, and each coil carries a current of 0.131 A flowing in the same direction. Calculate the magnitude and the direction of magnetic field in the center between the coils.

http://www.webassign.net/bauerphys1/28-figure-18a.gif

Homework Equations



Isn't this a simple solonoid? So can't you just plug in the numbers and get the answers? Or does the multiple connections change the problem?

B = u_0*i*n
n = N/L


The Attempt at a Solution



B= (4*pi*10^-7)*0.131*n
It says r is equal to the length. so, n = N/L = 17/0.766

B= (4*pi*10^-7)*0.131*17/0.766
B = 3.653*10^-6 T, but this is wrong. Can anyone point me in the right direction?
 
For this problem yo are trying to calculate the field between the coils. The formula you are using for a solenoid is therefore not valid as it is only valid in the cenetre of a long solenoid. Try treating each coil as a loop of wire of N turns.
 

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