A particle of mass `m` and charge `q` is lying at the origin in a uniform magnetic field `B` directed along x-axis. At time t = 0, it is given a velocity `v_0`, at an angle` theta` with the y-axis in the xy-plane. Find the coordinates of the particle after one revolution.

A particle of mass m, carrying a charge q, is lying at the origin in a uniform magentic field directed along X axis. At the instant t = 0 it is given a velocity v_(a) at an angle theta with the y-axis, in the XY plane. The coordinates of the particle after two revolution will be

A charged particle is fired at an angle theta to a uniform magnetic field directed along the x-axis. During its motionalong a helical path, the particle will

A charged particle is fired at an angle theta to a uniform magnetic field directed along the x- axis. During its motion along a helical path, if the pitch of the helical path is equal to the maximum distance of the particle from the x- axis

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 particle of mass 'm' and charge 'q' is incident on XZ plane with velocity 'v' in a direction making angle theta with a uniform magnetic field applied along X-axis. The magnetic field applied along X-axis. The nature of motion performed by the particle is

A particle of charge -q and mass m enters a uniform magnetic field vecB (perpendicular to paper inward) at P with a velocity v_0 at an angle alpha and leaves the field at Q with velocity v at angle beta as shown in fig.

A particle of charge q and mass m is prjected in a uniform and contant magnetic field of strength B .The initial velocity vecv makes angle theta with the vecB .Find the distance travelled by the particle in time t .

A particle having mass m and charge q is released from the origin in a region in which ele field and magnetic field are given by B=-B_0hatj and E=E_0hatk . Find the y- component of the velocity and the speed of the particle as a function of it z-coordinate.

Consider the motion of a positive point charge in a region where there are simultaneous uniform electic and magnetic field E=E_0hatj and B=B_0hatj . At time t=0 , this charge has velocity v inn the xy-plane making an angle theta with the x-axis. Which of the following option(s) is (are) correct for time tgt0? If theta=0^0 the charge moves in a circular path in the xy-plane. b. If theta=0^0 the charge undergoes helical motion with constant pitch along the y-axis. c. If theta=10^0 the charge undergoes helicalmotion with its pitch increasing with time along the y -axis. d If theta=90^@ the charge undergoes linear but accelerated motion along the y -axis.