Force on a current carrying conductor
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Transcript of Force on a current carrying conductor
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Force on a current Force on a current carrying conductorcarrying conductor
Submitted to: Dr. Tariq Bhatti
Submmited by: Ahmad MushtaqRoll No.: 07-45Program BS-itSession 2007-11
Department of Computer ScienceBahauddin Zakariya University,Multan
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How to find force on a How to find force on a current carrying current carrying
conductor ?conductor ?Equation for finding force on a moving Equation for finding force on a moving particle can be used to find force on a particle can be used to find force on a current carrying conductor.current carrying conductor.
Source: www.boredofstudies.org
Current
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SubstitutingSubstituting
We know that,F = qv x B
Substituting,Velocity v = vd
Total Charge q = Nq = nAlq
Hence,
F = nAlqvd x B
. ..N = nAl
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Relation of Force with Relation of Force with Length & CurrentLength & Current
‘l’ has the same direction as ‘vd’ we can write:
lvd = lud
F = nAlqvd x B
Substituting:
F = nAlqud x B
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Relation of Force with Relation of Force with Length & CurrentLength & Current
We know that,Current Density j = nqud
and Current I = jA = nqud A
F = nAlqud x B
Hence,
F = Il x B
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Magnitude of Magnetic Magnitude of Magnetic ForceForce
Where ‘O’ is angle b/w directions of ‘l ’ & ‘B’.
F = Il x B sin0
Direction of the force can be determined by fleming’s left hand rule
Source: http://physics503.one-school.net
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What if conductor is not What if conductor is not straight?straight?
Here we use,
dF=Idl x B
For sum,
F= ∫Idl x B
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Conclusion:Conclusion:
The magnitude of the force on length l of the conductor is proportional to the length as well as to the current in the conductor and to the magnitude of the magnetic field.
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Elements For Presentation