In a certain region, uniform electric field `E=-E_0hatk` and magnetic field `B = B_0hatk` are present. At time `t = 0`, a particle of mass in and charge q is given a velocity `v = v-0hatj + v-0hatk`. Find the minimum speed of the particle and the time when it happens so.

In a certain region uniform electric field E and magnetic field B are present in mutually opposite directions. At the instant t=0 , a particle of mass m carrying a charge q is given velocity v_(0) at angle theta , with the y- axis, in the yz plane. The time after which the speed of the particle would be minimum is equal to

A uniform magnetic field barB =B_(0)hatj exists in a space. A particle of mass m and charge q is projected towards negative x-axis with speed v from the a point (d,0,0) The maximum value v for which the particle does not hit y-z plane is .

A uniform magnetic field B=B_(0)hatj exists in space. A particle of mass m and charge q is projected towards X-axis with speed v from a point (a,0, 0). The maximum value of v for which the particle does not hit the Y-Z plane is

Electric field and magnetic fiedl n a region of sace is given by E=E_0hatj and B=B_0hatj . A particle of specific charge alpha is released from origin with velocity v=v_0hati . Then path of particel

Electric field and magnetic field in a region of space are given by (Ē= E_0 hat j) . and (barB = B_0 hat j) . A charge particle is released at origin with velocity (bar v = v_0 hat k) then path of particle is

The space has electromagnetic field which is given as vecB= -B_(0)hatk and vecE=E_(0)hatk . A charged particle having mass m and positive charge q is given velocity v_(0)hati at origin at t=0sec . The z coordinate of the particle when it passes through the z- axis is (neglect gravity through motion)

A particle ( mass = m and charge = q ) is moving in a region in which there exists a uniform electric field E vec( i ) and a uniform magnetic field B hat (k) . At t = 0 , the particle is at ( 0,a ) and is moving with v hat(i) . After some time, the particle is located at ( 2a, 0 ) and has a velocity - 2 v hat( j ) , then which of the following is true ?