The forces of cathode ray particles due to electric and magnetic fields which are at right angles to each other balance each other. If the magnetic field has an intensity `0.1 T`, what is the intensity of the electric field? The velocity of cathode ray particles is `10^(6) m s^(-1)`. What p.d. is required to produce this velocity?

What are the directions of electric and magnetic field vectors relative to each other and relative to the direction of propagation of electromagnetic waves ?

In a cathode ray tube, electric and magnesity of the magnetic fields are simultaneously applied at right angles to each other and the intensity of the magnetic field is so adjusted that the beam remains undeflected. Show that the velocity of cathode ray particles is given by v=E/B . Calculate this velocity when B=0.01 T and E=50,000 V//m .

What is the magnetic force experienced by a charged particle if velocity and magnetic field are parallel to each other?

A charged particle is released from rest in a region of steady and uniform electric and magnetic fields which are parallel to each other . The particle will remove in a

In a region, steady and uniform electric and magnetic fields are present . These two fields are parallel to each other. A charged particle is released from rest in this region . The path of the particle will be a

Two uniform sheets of charge with surface charge densities +sigma and -sigma are intersecting at right angles to each other. Electric field intensity due to this system is