In thomson's experiment, a magnetic field of induction `10^(-2) wb//m^(2) ` is used. For an undeflected beam of cathod rays , `a.p` of `500V` is applied between the plates which are `0.5` cm. apart . Then the velocity of the cathod ray beam is ….`m//s`.

In J.J Thomson's experiment, a magnetic field of 4xx10^(-2)Wbm^(-2) is used. If the electrons entering this field have a speed of 5xx10^(10)ms^(-1) , what potential difference applied between the two plates 0.8 cm apart will keep them undeflected ?

In the Millikan's experiment, the distance between two horizontal plates is 2.5 cm and the potential difference applied is 250 V .The electric field between the plates will be

A wire of length 0.1 m moves with a speed of 10 m//s perpenducular to a magnetic field of induction Wb//m^(2) . Calculate induced e.m.f.

When a cathode ray tube is operated at 2912 V, the velocity of electrons is 3.2xx10^(7)ms^(-1) . Find the velocity of cathode ray if the tube is operated at 5824V.

Two plates are 2cm apart, a potential difference of 10 volt is applied between them, the electric field between the plates is

A bar magnet of length 10 cm experiences a torque of 0.141 N-m in a uniform magnetic field of induction 0.4 wb//m^(2) , when it is suspended making an angle 45^(@) with the field, the pole strength of the magnet is

A conductor of length 2m, carrying a current of 10 A is kept in a magnetic field of induction 5xx10^(-4)Wb//m^(2). The conductor experiences a force of 5xx10^(-3)N. What is the angle made by the conductor, with the direction of the field ?

An alpha particles is projected with a velocity of 10^(7) m/s, in a uniform magnetic field of induction, 1.2xx10^(-6)Wb//m^(2), in a direction perpendicular to the field. If the lateral force action on the particle is 3.84xx10^(-18)N, what is the change on the a particle ?