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HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1 | HC Verma Solutions - JEE PDF Download

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Q.1. When a dielectric is placed in an electric field, it gets polarised. The electric field in a polarised material is less than the applied field. When a paramagnetic substance is kept in a magnetic field, the field in the substance is more than the applied field. Explain the reason of this opposite behaviour.

This opposite behaviour is due to the opposite behaviour of magnetic dipole as compared to electric dipole. When the paramagnetic substance is kept in magnetic field, the direction of magnetic field at the centre of magnetic dipole of substance is along the direction of magnetic moment which is opposite to the case of dipole in electric field. Also, when paramagnetic substance is kept in the magnetic field then its magnetic dipole aligns in the direction of field. Thus, magnetic field due to the magnetic dipole adds up to the applied magnetic field.
Hence, an extra magnetic field produced in the direction of applied field.


Q.2. The property of diamagnetism is said to be present in all materials. Then, why are some materials paramagnetic or ferromagnetic?

When a diamagnetic material is placed in magnetic field, dipole moment are induced in its atoms by the applied magnetic field. The direction of magnetic field due to induced dipole moment is opposite to the applied magnetic field therefore the resultant magnetic field is smaller than the applied magnetic field. This process is called diamagnetism. As this process takes place for all the material, therefore all the material exhibit diamagnetism. However, some material consists of atoms having some magnetic moment on their own (without applying magnetic field). As a result of it, when they are placed in magnetic field, they aligns their atomic dipole in the direction of applied magnetic field and hence their resultant magnetic field is more then the applied magnetic field and exhibit paramagnetism or ferromagnetism.


Q.3. Do permeability and relative permeability have the same dimensions?

Magnetic permeability (μ) is the ratio of magnetic flux density (B) to the magnetising field strength (H).
HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1 | HC Verma Solutions - JEE
In CGS ( centimeter-gram-second) dimension of B and H is same. Hence, magnetic permeability is dimensionless. But in SI unit, dimension of  B and H is not same. Thus, permeability is not dimensionless.
Relative permeability is defined as the ratio of magnetic permeabity of any medium to the permeability of the vaccum. Hence, it is dimensionless. Thus, permeability and relative permeability have the same dimensions in CGS system.


Q.4. A rod, when suspended in a magnetic field, stays in the east-west direction. Can we be sure that the field is in the east-west direction? Can it be in the north-south direction?

No, it depends on the nature of rod. As we know that when the diamagnetic substance is suspended in a uniform field they set their longer axis right angles to the direction of magnetic field. So, if the material of the rod will be diamagnetic then it will stay in the east-west direction in perpendicular magnetic field ( i.e. along north-south direction). But if the material of the rod is paramagnetic or ferromagnetic it will stay in east-west direction having magnetic field in east-west direction.


Q.5. Why is it not possible to make permanent magnets from paramagnetic materials?

Permanent magnets are made from the material that are easily magnetized and retain the magnetization even reverse magnetizing field is applied (high coercivity). Paramagnetic materials get small magnetization, if they are placed in magnetic field, they lose their magnetization easily if the reverse field is applied. Hence, they are not used to make permanent magnet.


Q.6. Can we have magnetic hysteresis in paramagnetic or diamagnetic substances?

No, magnetic hysteresis is the lagging of intensity of magnetization (I) behind magnetising force (H). When diamagnetic and paramagnetic materials are placed in a magnetic field they get weekly magnetised. Also, they lose their magnetization as the magnetic field is removed (low retentively). Therefore, they do not form magnetic hysteresis curve.


Q.7. When a ferromagnetic material goes through a hysteresis loop, its thermal energy is increased. Where does this energy come from?

When a ferromagnetic material is taken through the cycle of magnetisation, magnet dipoles of the material orient and reorient with time. This molecular motion within the material results in the production of heat, which increses thermal energy of material.


Q.8. What are the advantages of using soft iron as a core, instead of steel, in the coils of galvanometers?

The material used as a core in the moving coil galvanometer undergoes cycle of magnetization for long period. Therefore, low hysterisis loss is the first requirement for such material. In soft ron core, area under the hysteresis curve is small thus loss of energy is less as compared to steel. Further, it is easily magnetized by the magnetizing field, which increase the magnetic field and hence sensitivity of galvanometer.


Q.9. To keep valuable instruments away from the earth's magnetic field, they are enclosed in iron boxes. Explain.

As we know that iron have high permeability, therefore it will provide easy path for the magnetic field lines to pass. As a result of this, all the magnetic field lines of earth's magnetic field will prefer to pass through the wall of the box making magnetic field inside the box zero. Hence, it will keep the valuable instruments away from the earth's magnetic field.

Multiple Choice Questions

Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:A paramagnetic material is placed in a magnetic field. Consider the following statements:-
(A) If the magnetic field is increased, the magnetisation is increased.
(B) If the temperature is increased, the magnetisation is increased.
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:A paramagnetic material is kept in a magnetic field. The field is increased till the magnetisation becomes constant. If the temperature is now decreased, the magnetisation ___________ .
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:A ferromagnetic material is placed in an external magnetic field. The magnetic domains ______________ .
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself: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 ______________ .
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:The magnetic susceptibility is negative for _____________ .
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:The desirable properties for making permanent magnets are _________________ .
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:Electromagnets are made of soft iron because soft iron has _______________ .
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:Pick the correct options.
Check
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:The permanent magnetic moment of the atoms of a material is not zero. The material  _______ .
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Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:The permanent magnetic moment of the atoms of a material is zero. The material  ______ .
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:Which of the following pairs has quantities of the same dimensions?
Check
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*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:When a ferromagnetic material goes through a hysteresis loop, the magnetic susceptibility
Check
View Solution

*Multiple options can be correct
Question for HC Verma Questions and Solutions: Chapter 37: Magnetic Properties of Matter- 1
Try yourself:Mark out the correct options.
Check
View Solution

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