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Derive the force exerted by a magnetic f...

Derive the force exerted by a magnetic field on a moving charged particle.

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Write the expression for the magnetic force acting on a, charged particle moving with velocity v in the presence of magnetic field B.

What is the force experienced by a charged particle of charge moving from east to west with a velocity v in a magnetic field B, acting vertically downwards?

Knowledge Check

  • Not force is exerted by magnetic field on a stationary

    A
    electric dipole
    B
    magnetic dipole
    C
    current loop
    D
    none of these

  • No force is exerted by magnetic field on a stationary:

    A
    Electric dipole
    B
    Magnetic dipole
    C
    Current loop
    D
    Current carrying conductor

  • A charge is projected in a region of magnetic field (no other field is present). Assertion: Kinetic energy of charge particle will remain constant. Reason: Work done by magnetic force on moving charge particle is zero.

    A
    If both the assertion and reason are true and reason is a true explantion of the assertion.
    B
    If both the assertion and reason are true but the reason is not true the correct explantion of the assertion.
    C
    If the assertion is true but reason false
    D
    If both the assertion and reason are false.

    • Similar Questions

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    Tutorial based on Magnetic field and Force on Moving charge

    A: The magnetic field lines also represent the lines of force on a moving charged particle at every point. R: Force on a moving charge acts parallel to the magnetic field.

    Assertion : Electric field produced by a variable magnetic field can't exert a force on a charged particle. Reason : This electric field is non-conservative in nature.

    Assertion: Magnetic field can always accelerate the charged particle, if it is not moving, parallel or antiparallel to the magnetic field. Reason: When the velocity of a charged particle makes an angle other than 0^(@) " or " 180^(@) , magnetic force is nonzero.

    A magnetic field can exert force on a

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