A particle of specific charge `q//m = (pi) C//kg` is projected from the origin towards positive x-axis with a velocity of `10 m//s` in a uniform magnetic field `vec(B) = -2 hat K` Tesla. The velocity `vec V` of the particle after time `t =1//6` s will be

A particle of specific charge q/m=pi C//kg is projected from the origin towards positive x -axis with a velocity of 10 m//s in a uniform magnetic field vec(B)=-2hatk T . The velocity vec(v) of particle after time t=1/12 s will be (in m//s )

A particle of specific charge q/m = pi C kg^-1 is projected from the origin toward positive x-axis with a velocity of 10 ms^-1 in a uniform magnetic field vec B = -2 hat k T. The velocity vec v of particle after time t=1/12 s will be (in ms^-1 )

A particle of specific charge 'alpha' is projected from origin at t=0 with a velocity vec(V)=V_(0) (hat(i)-hat(k)) in a magnetic field vec(B)= -B_(0)hat(k) . Then : (Mass of particle =1 unit)

A charged particle of specific charge (charge/mass) alpha released from origin at time t=0 with velocity vec v = v_0 (hat i + hat j) in uniform magnetic field vec B = B_0 hat i. Coordinates of the particle at time t= pi//(B_0 alpha) are

What is the direction of the force acting on a charged particle q, moving with a velocity vec(v) a uniform magnetic field vec(B) ?

In a right handed coordinate system XY plane is horizontal and Z-axis is vertically npward. A uniform magnetic field exist in space in vertically npward direction with magnetic induction B. A particle with mass m and charge q is projected from the origin of the coordinate system at t= 0 with a velocity vector given as vec(v) = v_(1) hat(i) + v_(2) hat(k) Find the velocity vector of the particle after time t.

An alpha particle moving with the velocity vec v = u hat i + hat j ,in a uniform magnetic field vec B = B hat k . Magnetic force on alpha particle is

A particle of specific charge alpha is projected from origin with velocity v=v_0hati-v_0hatk in a uniform magnetic field B=-B_0hatk . Find time dependence of velocity and position of the particle.