Find Magnetic Field of Infinitely Long Line Current

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SUMMARY

The discussion focuses on calculating the magnetic field of an infinitely long line current using the formula B = μ₀ I / (2π r⊥). Participants clarify the concept of r⊥, emphasizing that it is the perpendicular distance from the line current to the point of interest, which can be determined using the Pythagorean theorem in three dimensions. The right-hand rule is explained as a method to determine the direction of the magnetic field, where the thumb points in the direction of the current and the fingers curl in the direction of the magnetic field. The specific case discussed involves finding the magnetic field direction at the point (1,1,1).

PREREQUISITES
  • Understanding of magnetic fields and line currents
  • Familiarity with the right-hand rule for determining magnetic field direction
  • Basic knowledge of three-dimensional geometry and the Pythagorean theorem
  • Ability to apply the formula B = μ₀ I / (2π r⊥) for magnetic field calculations
NEXT STEPS
  • Study the application of the right-hand rule in various configurations of current-carrying conductors
  • Explore the concept of magnetic field lines around different geometries, such as loops and solenoids
  • Learn about the Biot-Savart Law for calculating magnetic fields from arbitrary current distributions
  • Investigate the effects of magnetic fields on charged particles in motion
USEFUL FOR

Students studying electromagnetism, physics educators, and anyone seeking to understand the principles of magnetic fields generated by currents.

musiliu
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Homework Statement



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Homework Equations



B = u0 I / 2 pi r (perpendicular)


The Attempt at a Solution



This seems like a simple plug in values equation, but the 3-dimensions is confusing me, and I can't figure out what the value of r(perpendicular) should be, and what the direction should be..

I can't seem to draw the r(perpendicular) to the line current..since it's 3d, if i try to make it perpendicular i end up with a point above the x-axis and i don't think the line current is in the z plane..

Need help please, thanks.
 
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Try to draw it on a piece of paper...you will see that because the infinite line is along the x-axis, the distance from the line aka the distance from the x-axis doesn't depend on x at all. Only y and z. Then you can see that if you move up 1 in the y direction and 1 in the z direction you have a right triangle with sides 1 and 1 whose hypotenuse is r = sqrt(2). Using this value you can calculate the magnitude and the direction is given by the right hand rule
 
oh...i always thought r(perpendicular) meant draw a line connecting the current to the point of interest and angle was always 90 degrees, i didn't know i could do that for r
edit: i don't understand how r= sqrt(2) can be perpendicular to the line current.. r seems like a diagonal line ..

for the right hand rule, i could never do it right...i don't know how to position my hand according to the current..which direction do i curl my fingers?
is the direction in the positive z direction?
 
Last edited:
ok, i understand the r perpendicular value now, but can someone explain in detail what they do to find the direction using right hand rule?

is the direction counterclockwise in y-z plane and in x-y plane the direction is in both +z and -y direction?
 
musiliu said:
ok, i understand the r perpendicular value now, but can someone explain in detail what they do to find the direction using right hand rule?

is the direction counterclockwise in y-z plane and in x-y plane the direction is in both +z and -y direction?

You know the magnetic fields go either clockwise or counterclockwise around the wire. To find the direction, imagine the thumb of your right hand points in the direction of the current, then your fingers will curl in only one direction and that is the direction of the magnetic field.

And btw, http://tinyurl.com/2u9glqh" ;)
 
Last edited by a moderator:
ok, but what would you say is the direction for this problem? I'm supposed to find the direction at that point (1,1,1).. so i don't think I'm just supposed to put the entire direction of the magnetic field.. is the direction at that point in the +z and -y direction?
 

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