Force on a Current-carrying loop

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The discussion centers on calculating the torque and forces acting on a rectangular loop of wire carrying a current in a magnetic field. The torque was successfully calculated as 1.49E-6 using the formula t = NIABsin(theta). The total force on side b was determined to be zero due to its parallel alignment with the magnetic field. For side a, the force must account for the number of turns in the loop, leading to a calculation that multiplies the force on one turn by four. The clarification emphasizes that each side of the loop contributes to the total force due to the multiple turns.
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Homework Statement



A rectanglular loop consists of 4 turns of wire carrying a current of 2.7 A. The loop is in the x-y plane, and the direction of flow of the current is shown in the figure. The loop has dimensions a = 1 cm and b = 6 cm. Consider a uniform magnetic field of strength 2.3 × 10-4 T in x, y, or z directions.

If the uniform field of 2.3 × 10-4 T is along the +x axis, find the magnitude of the torque acting on the loop and the total force on side a and b.

Diagram:
http://uploadpic.org/view-pic.php?img=100601"
http://uploadpic.org/view-pic.php?img=100601

Homework Equations


t = NIABsin(theta)
B=unI (n= # of turns, u = 4 * 3.14 * E-7)
F=ILBsin(theta)


The Attempt at a Solution


-I found torque using the above equation, and it was 1.49E-6
-Fb is simply 0 because it is parallel to the magnetic field
-but I have NO IDEA how to solve for Fa. I tried using F=ILBsin(theta), (=2.7*.1m*2.3E-4) and it rejects my answer. I also tried =2.7*.1m*2.3E-4*2.

Please help me find Fa?
 
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you have not used the number of turns in the solution.
 
rl.bhat said:
you have not used the number of turns in the solution.
I did use it to find torque, but did not use it when finding force. how do I use it in the solution? please tell me.
 
It will be 4 times the force on each turn.
 
rl.bhat said:
It will be 4 times the force on each turn.

thanks! that worked for me! But why do we do 4 times for each turn when we are only looking at one side?
 
ninjarawr said:
thanks! that worked for me! But why do we do 4 times for each turn when we are only looking at one side?

Because each side contains four terns.

What is torque? FXb. In that calculation you have used no. of terns to calculate the force. Same thing is true for Fa.
 
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