In a region of crossed fields as shown, the strength of electric field is E and that of magnetic field is B. Three positively charged particles with speeds `V_(1), V_(2) and V_(3)` are projected and their paths are shown. From this it implies that

In a region where both non-zero uniform electric field and magnetic field coexist, the path of a charged particle

A particle having charge q moves with a velocity v through a region in which both an electric field vecE and a magnetic field B are present. The force on the particle is

A velocity filter uses the properties of electric and magnetic field to select particles that are moving with a specifice velocity. Charged particles with varying speeds are directed into the filter as shown. The filter consistt of an electric field E and a magnetic field B, each of constant magnitude, directed perpendicular to each other as shown, The charge particles will experience a force due to electric field given by F = qE. If positively charged particles are used, this force is towards right. The moving particle will also experience a force due to magnetic field given by F = qvB . When forces due to the two fields are of equal magnitude, the net force on the particle will be zero, the particle will pass through centre with its path unaltered. The electric and magnetic fields can be adjusted t choose the specific velocity to be filtered. The efect of gravity can be neglected. The electric and magnetic fields are adjusted to detect particles with positive charge q of certain speed v_(0) . which of the following expressions is equal to this speed?

A particle of charge q and velocity v passes undeflected through a space with non-zero electric field E and magnetic field B. The undeflecting conditions will hold, if

Positively charged particles are projected into a magnetic field. If the direction of the magnetic field is along the direction of motion of the charged particles, the particles get

In the XY- plane , the region y gt 0 has a uniform magnetic field B_1 hatk and the region y lt 0 has another uniform magnetic field B_2 hatk . A positively charged particle is projected from the origin along the positive y- axis with speed v_0= pi m s^(-1) at t=0 , as shown in the figure . Neglect gravity in this problem . Let t=T be the time when the particle crosses the X- axis from below for the first time . If B_2 = 4B_1 , the average speed to the particle , in ms^(-1) , along the x- axis in the time interval T is __________ .

A charge particle travels along a straight line with a speed v in region where both electric field E and magnetic field b are present.It follows that

In figure two points A and B are located in a region of electric field . The potential difference V_(B)-V_(A) is

In a region of space, both electric and magnetic field are present simultaneously in opposite direction. A positively charged particle is projected with certain speed an angle theta (lt 90^(@)) with magnetic field. It will move in a

An electron is moving on a circular path of radius r with speed v in a transverse magnetic field B. e/m for it will be