A bar magnet of length l and magnetic dipole moment M is bent in

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 Multiple Choice QuestionsMultiple Choice Questions

41.

Following figures show the arrangement of bar magnets in different configurations. Each magnet has magnetic dipole moments m. Which configuration has highest net magnetic dipole moment? 

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42.

Two identical long conducting wire AOB and COD are placed at right angle to each other, with one above other such that O is their common point for the two. The wires carry I1 and I2 currents, respectively. point P is lying at distance d from O along a direction perpendicular to the plane containing the wires. The magnetic field at the point P will be,

  • fraction numerator straight mu subscript straight o over denominator 2 πd end fraction open parentheses I subscript 1 over I subscript 2 close parentheses
  • fraction numerator straight mu subscript straight o over denominator 2 πd end fraction left parenthesis I subscript 1 space plus space I subscript 2 right parenthesis
  • fraction numerator straight mu subscript straight o over denominator 2 πd end fraction space left parenthesis I subscript 1 squared space minus space I subscript 2 squared right parenthesis
  • fraction numerator straight mu subscript straight o over denominator 2 πd end fraction space left parenthesis I subscript 1 squared space minus space I subscript 2 squared right parenthesis
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43.

A bar magnet of length l and magnetic dipole moment M is bent in the form of an arc as shown in figure, The new magnetic dipole moment will be

  • M

  • 3M/π

  • 2M/π

  • 2M/π


B.

3M/π

The magnetic moment, M=ml
From figure 
straight I equals straight pi over 3 space straight x space straight r
straight r equals space fraction numerator 3 straight l over denominator straight pi end fraction
therefore comma
New space magnetic space moment
straight M apostrophe space equals space mxr
equals space mx fraction numerator 3 straight l over denominator straight pi end fraction space equals space 3 over straight pi. ml space equals space fraction numerator 3 straight M over denominator straight pi end fraction

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44.

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 feebly repelled

(ii) B is feebly attracted

(iii) C is strongly attracted

(iv) D remains unaffected

  • C is a diamagnetic material

  • D is of a ferromagnetic material

  • A is of a non- magnetic material

  • A is of a non- magnetic material

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45.

A thin ring of radius R metre has charge q column uniformly spread on it. The ring rotates about its axis with a constant frequency of  f revolution/s. The value of magnetic induction in Wb m-2 at the centre of the ring is

  • μoq f/ 2π R

  • μoq / f 2π R

  • μoq / 2 f R

  • μoq / 2 f R

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46.

Electromagnets are made of soft iron because soft iron has

  • low retenitivity and high coercive force

  • high retentivity and high coercive force

  • low retentivity and low coercive force

  • low retentivity and low coercive force

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47.

A vibration magnetometer placed in magnetic meridian has a small bar magnet. The magnet executes oscillations with a time period of 2s in earth's horizontal magnetic field of 24 μT. When a horizontal field of 18 μT is produced opposite to the earth's field by placing a current-carrying wire, the new time period of magnet will be

  • 1s

  • 2s

  • 3s

  • 3s

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48.

The magnetic moment of a diamagnetic atom is 

  • much greater than one

  • one

  • equal to zero

  • equal to zero

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49.

Two identical bar magnets are fixed with their centres at a distance d apart. A stationary charge Q is placed at P in between the gap of the two magnets at a distance D from the centre O as shown in the figure.


The force on the charge Q is

  • zero

  • directed along OP

  • directed along PO

  • directed along PO

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50.

A rectangular, a square a circular and an elliptical loop, all in the (x-y) plane, are moving out of a uniform magnetic field with a constant velocity,bold V with bold rightwards arrow on top space equals space v bold italic i with hat on top The magnetic field is directed along the negative z- axis direction. The induced emf, during the passage of these loops, out the field region, will not remain constant for

  • the rectangular, circular and elliptical loops

  • the circular and the elliptical loops

  • only the elliptical loops

  • only the elliptical loops

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