Magnetic field and parallel current-carrying wires

AI Thread Summary
The discussion revolves around determining the direction of the magnetic field created by two parallel current-carrying wires. Participants debate the application of the right-hand and left-hand rules to ascertain the field's direction, with one user suggesting that the magnetic fields from the wires would cancel each other out. However, it is clarified that the currents in the wires flow in opposite directions, which affects the magnetic field's orientation. The consensus is that the magnetic field direction is upwards, depending on the viewer's perspective of the wires. Understanding the correct application of these rules is crucial for accurately determining the magnetic field direction.
ah4p
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could someone explain question 10. JUST PART b)iii)

http://mrmackenzie.wikispaces.com/file/view/AHpastpaper2004.pdf

I got the magnitude of the magnetic field
but I don't know how to find its directionI thought it might be to do with left and right hand rule?

the answer is upwards
could someone please explain why this is so?

thank u v much in advance :)


[Moderator note: Moved to new thread; removed bits of old thread from this post]
 
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ah4p said:
could someone please explain why this is so?
How would you apply the right hand rule to find the direction of the magnetic field around a current-carrying wire?
 
Doc Al said:
How would you apply the right hand rule to find the direction of the magnetic field around a current-carrying wire?

I don't know

using the left hand rule (I'm Scottish so I use negative current) surely the magnetic field due to one wire is up and due to the other one is down so they'd cancel?
 
ah4p said:
I don't know

using the left hand rule (I'm Scottish so I use negative current) surely the magnetic field due to one wire is up and due to the other one is down so they'd cancel?
It does say electron flow, so you're good with a left rule. (Although I recommend always using a right hand rule and positive current.) Realize that the current in each wire goes in opposite directions. Describe the direction of the magnetic field surrounding each wire.
 
Doc Al said:
It does say electron flow, so you're good with a left rule. (Although I recommend always using a right hand rule and positive current.) Realize that the current in each wire goes in opposite directions. Describe the direction of the magnetic field surrounding each wire.
one goes into the page and one out of the page?

thanks for your help :)
 
ah4p said:
one goes into the page and one out of the page?
Nope! Try again. ;)
 
Note: It's not completely clear which wire is closest to the viewer. I will assume that the wire appearing lowest in the diagram is closest to the viewer. (Use whatever makes sense to you, just state what assumptions you are making.)
 

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