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Hint When a magnet is placed, the magnetic field is produced around it. This magnetic field can be represented through magnetic field lines. The magnet is strongest at the point where these magnetic field lines are most dense.
Complete Step by step solution
The area around a magnet where the magnetic force exists is called the magnetic field.
A visual tool used to represent magnetic fields is magnetic field lines. They explain the direction of the magnetic field. Magnetic field lines will never cross, meaning that at every point in space the field is unique. Magnetic field lines are continuous, with no beginning or end, creating closed loops. They go to the south pole from the north pole.
In regions where the magnetic field is the greatest, magnetic field lines naturally bunch together. This implies that the density of field lines indicates the strength of the field.
Magnetic field lines of a magnet can be represented by the following diagram:
The closer the magnetic field lines are, the stronger the magnetic field at that point.
As we can see in the diagram, the magnetic field lines are closer or denser at the poles. So, the magnetic field is strongest around the poles of the magnet.
Hence, the correct answer is option (A) Poles of the magnet.
Note Magnets have two poles, a north pole, and a south pole. It does not separate its north pole from its south pole by splitting a magnet in two. Each half is found to have north and south poles of its own. Also, like poles repel each other and unlike poles attract each other.
Complete Step by step solution
The area around a magnet where the magnetic force exists is called the magnetic field.
A visual tool used to represent magnetic fields is magnetic field lines. They explain the direction of the magnetic field. Magnetic field lines will never cross, meaning that at every point in space the field is unique. Magnetic field lines are continuous, with no beginning or end, creating closed loops. They go to the south pole from the north pole.
In regions where the magnetic field is the greatest, magnetic field lines naturally bunch together. This implies that the density of field lines indicates the strength of the field.
Magnetic field lines of a magnet can be represented by the following diagram:
The closer the magnetic field lines are, the stronger the magnetic field at that point.
As we can see in the diagram, the magnetic field lines are closer or denser at the poles. So, the magnetic field is strongest around the poles of the magnet.
Hence, the correct answer is option (A) Poles of the magnet.
Note Magnets have two poles, a north pole, and a south pole. It does not separate its north pole from its south pole by splitting a magnet in two. Each half is found to have north and south poles of its own. Also, like poles repel each other and unlike poles attract each other.
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