only conclusion of an electric motor class 10
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Answer:
When the current begins to flow, current flows through brush X, then A to B, B to C, C to D and then to brush Y and into the battery.
Now applying Fleming's Left Hand Rule to wire AB, Current is along AB, Magnetic Field is as shown (North-> South), the motion of the wire is downwards.
Now applying Fleming's Left Hand Rule to wire CD, Current is along CD, Magnetic Field is as shown (North-> South), the motion of the wire is upwards.
The rectangular coil begins to move in the anti-clockwise direction
Note that during anti-clockwise motion, the split rings and axle also move, whereas the brushes don't move.
After half a rotation, Wire CD and Split ring Q moves to the left. Wire AB and Split ring P moves to right. Brushes X and Y donot move.
Now applying Fleming's Left Hand Rule to wire CD, Current is along DC. (Battery -> Split ring Q -> DC , Magnetic Field is as shown (North-> South), the motion of the wire is downwards.
Now applying Fleming's Left Hand Rule to wire AB, Current is along BA. (Battery -> Split ring Q -> DC --> CB -> BA --> Split ring P) , Magnetic Field is as shown (North-> South), the motion of the wire is upwards.
So, again the coil rotates in the anti-clockwise direction.
The reversal of current in the coil results in the continous rotation of the coil. The reversal of current is achieved by the commutator rings
Explanation:
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Answer:
In conclusion my hypothesis that the learned that making a simple electric motor isn't all that easy. I learned that this has to happen because the insulation wont conduct electricity. ... I also learned the wire has to be centered with the magnet to help conduct electricity.
Explanation:
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