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Magnetic field in a region is given by $\vec{B} = B_{0} \hat{i} + 2 B_{0} \hat{j} .$ Find torque on the loop shown in figure.

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Important Questions on Moving Charges and Magnetism

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>EXERCISE>Q 44

A magnetic dipole is placed as shown in figure. Find work done by external agent in rotating it by $90 °$ anticlockwise and clockwise.

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>EXERCISE>Q 45

A current carrying loop is placed in magnetic field as shown in figure. Find time period of small oscillation around as axis passing through diameter of coil. Mass of coil is $m,$ radius is $R .$

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>Assignment>Q 1

A particle of mass $M$ and charge

Q

moving with velocity

\vec{v}

describes a circular path of the radius $R$ when subjected to a uniform transverse magnetic field of induction $B$ . The work done by the field when the particle completes one full circle is

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>Assignment>Q 2

A changed particle, having charge

' q'

accelerated through a potential difference

' V'

enters a perpendicular magnetic field in which it experiences a force

F .

' V'

is increased to

5 V,

the particle will experience a force

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>Assignment>Q 3

The magnetic field due to a current carrying circular loop of radius

3 cm

at a point on the axis at a distance of

4 cm

from the centre is

54 μ T

. What will be its value at the centre of the loop?

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>Assignment>Q 4

A circular coil of radius

R

carries an electric current. The magnetic field due to the coil at a point on the axis of the coil located at a distance

r

from the centre of the coil, such that

r ≫ R

, varies as

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>Assignment>Q 5

A current flows in a conductor from east to west. The direction of the magnetic field at a point above the conductor is

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Gamma Question Bank for Engineering Physics>Chapter 18 - Moving Charges and Magnetism>Assignment>Q 6

The earth's magnetic field at a given point is

0.5 \times 10^{- 5} Wb m^{- 2}

. This field is to be cancelled by magnetic induction at the centre of a circular conducting loop of radius

5.0 cm

. The current required to be flown in the loop is nearly

Magnetic field in a region is given by B→=B0i^+2B0 j^. Find torque on the loop shown in figure.

Important Questions on Moving Charges and Magnetism

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Magnetic field in a region is given by $\vec{B} = B_{0} \hat{i} + 2 B_{0} \hat{j} .$ Find torque on the loop shown in figure.