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प्रश्न
If the bar magnet is turned around by 180°, where will the new null points be located?
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उत्तर
The magnetic field on the axis of the magnet at a distance d1 = 14 cm can be written as:
`B_1 = (μ_0 2M)/(4pi (d_1)^3) = H` ...(1)
Where,
M = Magnetic moment
μ0 = Permeability of free space
H = Horizontal component of the magnetic field at d1
If the bar magnet is rotated by 180°, the neutral point will lie on the equatorial line.
Hence, the magnetic field at a distance d2, on the equatorial line of the magnet can be written as:
`B_2 = (μ_0 M)/(4pi (d_2)^3) = H` ...(2)
Equating equations (1) and (2), we get:
`2/(d_1)^3 = 1/(d_2)^3`
`(d_2/d_1)^3 = 1/2`
∴ `d_2 = d_1 xx (1/2)^(1/3)`
= `14 xx (0.5)^(1/3)`
= 14 × 0.794
= 11.1 cm
The new null points will be located 11.1 cm on the normal bisector.
