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Magnetic Properties Of Materials MCQ - Practice Questions with Answers

Edited By admin | Updated on Sep 25, 2023 25:23 PM | #NEET

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  • Magnetic properties of materials is considered one of the most asked concept.

  • 35 Questions around this concept.

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QuestionEASY

There are four light -weight -rod samples A,B,C,D separately suspended by threads. A bar magnet is slowly brought near each sample and the following observations are noted

(i) A is feely repelled

(ii) B is feely attracted

(iii) C is  strongly attracted

(iv) D remains unaffected

which one of the following is true?

View Solution

 An example of a perfect diamagnet is a superconductor. This implies that when a superconductor is put in a magnetic field  
of intensity B, the magnetic field Bs inside the superconductor will be such that :        

View Solution

Electromagnets are made of soft iron because soft iron has

View Solution

Concepts Covered - 1

Magnetic properties of materials

Depending on the magnetic properties, the magnetic materials are classified as

  • Diamagnetic substance 
  • Paramagnetic substance 
  • Ferromagnetic substance

Diamagnetic substance-

The substance which is feebly magnetized in a direction opposite to that of the magnetizing field in which those are placed.

bismuth, copper, lead, silicon, etc are diamagnetic substances.

And for diamagnetic substances

\begin{array}{c}{ \chi <0} \\ {0 \leq \mu_{r}<1} \\ {\mu<\mu_{0}}\end{array}

Magnetization(M) Vs   The magnetic intensity (H) curve-

Magnetic moment (m) for diamagnetic substances is Very low or nearly 0.

The cause of magnetism for Diamagnetic substances is the Orbital motion of electrons.

Diamagnetic substances are those which have a tendency to move from stronger to the weaker part of the external magnetic field.

 The magnetic field lines are expelled by these substances.

Behavior in a non-uniform magnetic field In diamagnetic substance-

I.e These are repelled in an external magnetic field.  

Paramagnetic substances-

Paramagnetic substances are those which get weakly magnetized when placed in an external magnetic field.

And for Paramagnetic substances

\begin{array}{c}{0<\chi <\varepsilon} \\ {1<\mu_{r}<1+\varepsilon} \\ {\mu>\mu_{0}}\end{array}

Magnetization(M) Vs   The magnetic intensity (H) curve-

They have a tendency to move from a region of a weak magnetic field to a strong magnetic field.

i.e., they get weakly attracted to a magnet.

Cause of magnetism-Spin motion of electrons

Magnetic moment (m) for Paramagnetic substances is Very low.

Behavior in a non-uniform magnetic field In Paramagnetic substance-

i.e These are feebly attracted in an external magnetic field.

Ferromagnetic substances-

The substance which is strongly magnetized in the direction of the magnetizing field in which they are placed.

Iron, cobalt, nickel, gadolinium, and the number of alloys are ferromagnetic in nature.

And for ferromagnetic substances

\begin{array}{l}{\chi >>1} \\ {\mu_{r}>>1} \\ {\mu>>\mu_{0}}\end{array}

Magnetization(M) Vs   The magnetic intensity (H) curve-

The cause of magnetism is the Formation of domains.

Magnetic moment (m) for ferromagnetic substances is Very high.

They have strong tendency to move from a region of weak magnetic field to strong magnetic field.

Magnetic field lines tend to crowd into a ferromagnetic substance.

Ferromagnetic

Behavior in a non-uniform magnetic field In ferromagnetic substance-

I.e These are strongly attracted in an external magnetic field

 

  • Curie Temperature or Curie Point-

It is the temperature above which increasing the temperature the susceptibility of ferromagnetic materials decreases.

i.e At a temperature above the Curie Point a ferromagnetic becomes an ordinary Paramagnetic

It is denoted by Tc.

Curie-Weiss curve-

From the above curve, we can say that   (For  T>Tc)    \mathrm {\chi _{m}\propto \frac{1}{T-T_{c}}}  or  \mathrm {\chi _{m}= \frac{C}{T-T_{c}}}  where C is some constant.

 

 

 

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Magnetic properties of materials

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