If we were to analyze the magnetic flux lines of a current-carrying conductor, oriented perpendicularly to a magnetic field between two bar magnets, the interaction would look something like this: N N This interaction of magnetic flux lines (the bar magnets' straight lines versus the wire's circles will produce a mechanical force on the wire (called the Lorentz force). Which direction wil this force act? Also, determine the direction of current through the conductor (seen from an end-view i the above illustration) necessary to produce the circular magnetic flux shown.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Please show your complete illustration. Use fleming's hand rule only.

If we were to analyze the magnetic flux lines of a current-carrying conductor, oriented
perpendicularly to a magnetic field between two bar magnets, the interaction would look
something like this:
N
N
This interaction of magnetic flux lines (the bar magnets' straight lines versus the wire's circles)
will produce a mechanical force on the wire (called the Lorentz force). Which direction will
this force act?
Also, determine the direction of current through the conductor (seen from an end-view in
the above illustration) necessary to produce the circular magnetic flux shown.
Transcribed Image Text:If we were to analyze the magnetic flux lines of a current-carrying conductor, oriented perpendicularly to a magnetic field between two bar magnets, the interaction would look something like this: N N This interaction of magnetic flux lines (the bar magnets' straight lines versus the wire's circles) will produce a mechanical force on the wire (called the Lorentz force). Which direction will this force act? Also, determine the direction of current through the conductor (seen from an end-view in the above illustration) necessary to produce the circular magnetic flux shown.
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