Force on a Current-Carrying Conductor (Cambridge (CIE) IGCSE Co-ordinated Sciences (Double Award)): Revision Note
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Force on a current-carrying conductor
Extended tier only
A current-carrying conductor produces its own magnetic field
When interacting with an external magnetic field, it therefore will experience a force
A current-carrying conductor will only experience a force if the current through it is perpendicular to the direction of the magnetic field lines
A simple situation would be a copper rod placed within a uniform magnetic field
When current is passed through the copper rod, it experiences a force which makes it move
A copper rod moves within a magnetic field when current is passed through it
Two ways to reverse the direction of the force (and therefore, the copper rod) are by:
reversing the direction of the current
reversing the direction of the magnetic field
Examiner Tips and Tricks
This phenomenon is sometimes referred to as 'the motor effect'. The direction of the force is determined by Fleming's left-hand rule.
Flemings left-hand rule
Extended tier only
The direction of the force (aka the thrust) on a current-carrying wire depends on the direction of
the current
the magnetic field
The direction of the force (or thrust) can be worked out by using Fleming's left-hand rule:
the thumb points in the direction of the force, or thrust, on the conductor
the first finger points in the direction of the magnetic field
the second finger points in the direction of current flow (from positive to negative)
Fleming’s left-hand rule can be used to determine the directions of the force, magnetic field and current
All three will be perpendicular to each other in Fleming's left-hand rule questions
This means that sometimes the force could be into and out of the page (in 3D)
Worked Example
A current-carrying wire is placed into the magnetic field between the poles of the magnet, as shown in the diagram.
Use Fleming’s left-hand rule to show that there will be a downward force acting on the wire.
Answer:
Step 1: Determine the direction of the magnetic field
Start by pointing your First Finger in the direction of the (magnetic) Field
Step 2: Determine the direction of the current
Now rotate your hand around the first finger so that the seCond finger points in the direction of the Current
Step 3: Determine the direction of the force
The THumb will now be pointing in the direction of the THrust (the force)
Therefore, this will be the direction in which the wire will move
Examiner Tips and Tricks
Remember that the magnetic field is always in the direction from North to South and current is always in the direction of a positive terminal to a negative terminal.
Feel free to use Fleming's left hand rule in your exam, just don't make it too distracting for other students!
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