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प्रश्न
A long, straight wire carries a current i. The magnetising field intensity H is measured at a point P close to the wire. A long, cylindrical iron rod is brought close to the wire, so that the point P is at the centre of the rod. The value of H at P will ______________ .
विकल्प
increase many times
decrease many times
remain almost constant
become zero
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उत्तर
remain almost constant
From the Biot-Savart law, magnetic field (B) at a point P close to the wire carrying current i is given by,
\[\overrightarrow{B} = \frac{\mu_0}{4\pi}\frac{i \overrightarrow{dl} \times \overrightarrow{r}}{r^3}\]
Magnetising field intensity (H) will be,
\[H = \frac{B}{\mu_0} = \frac{1}{4\pi}\frac{i \overrightarrow{dl} \times \overrightarrow{r}}{r^3}\]
Now, as the cylindrical rod is brought close the wire such that centre of the rod is at P, then distance of point P from the wire(r) will remain same. Hence, magnetic field intensity will remain almost constant. Also even when the rod is carrying any current then B will be zero at the centre of the rod so the value of Magnetising field intensity will remain the same at point P.
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संबंधित प्रश्न
What is Magnetization?
Which of the following pairs has quantities of the same dimensions?
(a) Magnetic field B and magnetising field intensity H
(b) Magnetic field B and intensity of magnetisation I
(c) Magnetising field intensity H and intensity of magnetisation I
(d) Longitudinal strain and magnetic susceptibility
Mark out the correct options.
(a) Diamagnetism occurs in all materials.
(b) Diamagnetism results from the partial alignment of permanent magnetic moment.
(c) The magnetising field intensity, H, is always zero in free space.
(d) The magnetic field of induced magnetic moment is opposite the applied field.
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Answer the following question.
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