Net Magnetic Field at the Center of a Loop and X Distance Away From a Wire

BornSurvivor · Mar 21, 2012

Homework Statement

https://fbcdn-sphotos-a.akamaihd.net/hphotos-ak-prn1/553004_1959186995753_1725123128_934768_456680196_n.jpg
In case the words are too small:
I₂= 6.61I₁
The net magnetic field at center of loop is 0.
I'm looking for the radius of the loop

Homework Equations

for straight wire: B=(u₀*I)/(2[itex]\pi[/itex]*r)
for loop: B= (u₀*I)/(2*r)

The Attempt at a Solution

So, since the two magnetic fields are perpendicular to each other: √(B₁²+B₂²)=0
I tried to find H in terms of R by using the right hand rule. I2/I1=(B2*H*[itex]\pi[/itex])/(B1*R) so H= -(6.61R/[itex]\pi[/itex])
But now I'm stuck, and I don't know if my work so far is even right.

tiny-tim · Mar 22, 2012

Hi BornSurvivor!

(pleeeeeease don't post such wide images! :redface:

)

BornSurvivor said:

So, since the two magnetic fields are perpendicular to each other …

No, a loop current's magnetic field goes along the axis of the loop,

and a straight line current's magnetic field goes in loops around the line.

Net Magnetic Field at the Center of a Loop and X Distance Away From a Wire

Homework Statement

Homework Equations

The Attempt at a Solution

1. What is the formula for calculating the net magnetic field at the center of a loop?

2. How does changing the distance X away from a wire affect the net magnetic field at the center of a loop?

3. What is the direction of the net magnetic field at the center of a loop and X distance away from a wire?

4. How does the current flowing through the loop affect the net magnetic field at the center of the loop?

5. What is the significance of the number of turns in a loop in calculating the net magnetic field at the center?

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