A particle is released from rest from origin O. There is a uniform magnetic field in negative z-direction. Positive y-direction is vertically upwards. After falling through 5m the velocity vector makes an angle `30^(@)` with x-axis.

The path of the particle is

A charged particle enters into a magnetic field with velocity vector making an angle of 30^@ with respect of the direction of magnetic field. The path of the particle is

A particle with mass m and positive charge q released from rest at the origin as shown in figure. There is a uniform electric field E_(0) in +y direction and uniform magnetic field B_(0) directed out of the page. The path of the particle as shown is called cycloid. The particle always moves in x-y plane. The velocity at any time t after the start is given as Speed of the particle at a general point P(x,y) is given by

A particle with mass m and positive charge q released from rest at the origin as shown in figure. There is a uniform electric field E_(0) in +y direction and uniform magnetic field B_(0) directed out of the page. The path of the particle as shown is called cycloid. The particle always moves in x-y plane. The velocity at any time t after the start is given as The time for which the y- coordinate of the particle bomes maximum for the first time is

In a region of space, a uniform magnetic field B exists in the x-direction. An electron is fired from the origin with its initial velocity u making an angle alpha with the y direction in the y-z plane. In the subsequent motion of the electron,

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 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 region has a uniform magnetic field B along positive x direction and a uniform electric field E in negative x direction. A positively charged particle is projected from origin with a velocity underset(V)to=V_(0)hati+V_(0)hatj . After some time the velocity of the particle was observed to be V_(0)hatJ while its x co-ordinate was positive. Write all possible values of (E)/(B)

In a region of space, a uniform magnetic field B exists in the y-direction A proton is fired from the origin, with its initial velocity v making a small angle alpha with the y-direction in the yz plane. In the subsequent motion of the proton .

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