When is the force experienced by a current carrying conductor largest. Explain?
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Hi!
Do you mean Magnetic force on the conductor? If that's it then my elaboration would be :
When current carrying conductor and magnetic field are perpendicular to each other the magnetic force experienced by it is the highest.
Numerically,
F = I (L×B)
where F = Magnetic force ,I = current, L=length of conductor & B= Magnetic field
F = I(L×B)sin theta
here if theta= 90°, then sin 90° = 1
So, F = I(L×B)×1 = I(L×B)
i.e F is the maximum.
Hence proved
Do you mean Magnetic force on the conductor? If that's it then my elaboration would be :
When current carrying conductor and magnetic field are perpendicular to each other the magnetic force experienced by it is the highest.
Numerically,
F = I (L×B)
where F = Magnetic force ,I = current, L=length of conductor & B= Magnetic field
F = I(L×B)sin theta
here if theta= 90°, then sin 90° = 1
So, F = I(L×B)×1 = I(L×B)
i.e F is the maximum.
Hence proved
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