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UP Board XII
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List of top Physics Questions on Moving charges and magnetism asked in UP Board XII
How can a galvanometer be converted into a voltmeter? Explain with the help of a circuit diagram.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Following charged particles are projected perpendicular to a uniform magnetic field with same velocity. Which one will experience maximum force?
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Explain Ampere's circuital law. Obtain the expression for the magnetic field inside a current carrying solenoid with its help.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
How a galvanometer is converted into an ammeter? The resistance of the coil of a galvanometer is 15 Ω and it gives full scale deflection by a current of 4 mA. How it can be converted into an ammeter in order to measure a current upto 6 A?
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
A coil of one loop is formed by a wire of length \( L \), and thereafter a coil of 3 loops is formed by the same wire. If the current remains the same in both cases, then the ratio of the magnetic fields at the centre will be:
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Option 1:
With the help of the given figure, prove that the magnetic field produced at point P is \(B=\dfrac{\mu_0 i}{2d}\left[1+\dfrac{2}{\pi}\right]\). (The wire is hairpin-shaped: a semicircular arc joined to two long straight parallel segments carrying current \(i\); P is at the centre of the arc and the straight segments are a distance \(d\) apart.)
OR
Option 2:
What is a radial magnetic field? Explain the working of a moving coil galvanometer with a suitable diagram. How can a galvanometer be converted into an ammeter and a voltmeter?
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
A circular coil of radius 2.0 cm carries a current of 1.0 A. If the coil has 100 turns, find the intensity of magnetic field at the centre of the coil.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Find out the magnetic moment of a rectangular coil of size 20 cm × 10 cm having 10 A current.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Explain Biot-Savart law. Deduce the formula for magnetic field produced due to a straight current carrying conductor.
OR
An α-particle, accelerated with the potential difference of V volt strikes with a nucleus (atomic number = Z). If r be the nearest distance of closest approach to the nucleus then prove that r = 14·4 Z/V Å.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Obtain the formula for the magnetic field inside a current carrying solenoid with the help of Ampere's circuital law.
OR
Obtain the formula for moment of couple acting on a magnetic dipole in a magnetic field. Define magnetic dipole moment with the help of this.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Explain the motion of a charged particle in a uniform magnetic field. Prove that the radius of the path of a charged particle moving perpendicular to a uniform magnetic field is proportional to the momentum of the particle.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Deduce the formula of force acting between two parallel current carrying conductors.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
An electron of energy 10 eV is revolving round a circular path in a uniform magnetic field of \( 10^{-5} \) tesla. Determine the radius of the circular path.
(Given: mass of electron \( m = 9.1\times10^{-31} \) kg, charge \( e = 1.6\times10^{-19} \) C)
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
Derive the formula for magnetic field due to an infinitely long current carrying conducting wire using Biot-Savart law.
OR
Differentiate between self-induction and mutual induction. The current in primary coil becomes zero in \(10^{-3}\) s and an induced e.m.f. of 1500 volts is produced in secondary. Mutual inductance of coils is 0.5 H. Find the value of initial current in the primary.
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism
A narrow electron beam passes undeviated through an electric field of \( 4\times10^{4}\ \text{V/m} \) and a magnetic field \( 2\times10^{-3}\ \text{weber/m}^2 \) applied at the same place. The speed of the electron beam will be:
UP Board XII - 2026
UP Board XII
Physics
Moving charges and magnetism