Statement I : The magnetic lines of force inside a piece of copper placed in a uniform magnetic field move away from each other .
Statement II : Permeability of diamagnetic material is less than one .

Statement : I Neither the magnetic field vector vecB nor the magnetic intensity vector vecH of a magnetic field depend on the nature of the medium. Statement : II If the magnetic permeability of a medium is mu then vecH=(1)/(mu)vecB

Calculate the torque acting on a rectangular coil carrying current I placed in a uniform magnetic field when the plane of the coil is perpendicular to the magnetic lines of force.

Consider a wire carrying a steady current I placed in a uniform magnetic field vecB . Consider the charges inside the wire. It is known that magnetic forces do no work. This implies that

Statement I: The ratio of the amplitudes of electric and magnetic fields at a point in the electromagnetic wave is same as the velocity of wave. Statement II: If in a medium, mu and in are the magnetic permeability and the electric permittivity respectively, then 1//sqrt(muin) is the velocity of electromagnetic wave in that medium.

Statement I : If a proton and an electron are placed in the same uniform electron field, they experience different accelerations. Statement II : Electric force on a test charge is independent of its mass.

Show diagrammatically the behavior of magnetic field lines in presence of i) Paramagnetic and ii) Diamagnetic material

Statement : I If an electron and a proton are projected with equal momentum in a uniform transverse magnetic field, then the curvature of their paths is equal. Statement II : Mass of proton is much higher than that of electron.