Three particles having charges in the ratio of `2 : 3 : 5`, produce the same point on the photographic film in Thomson's experiment. Their masses are in the ratio of

Three particles having their changes in the ratio of 1 : 3 : 5 produce the same spot on the screen in Thomson's experiment . Their respective masses are in the ratio of

If the radii of circular path of two particles are in the ratio of 3 :4 , then in order to have same centripatal acceleration, their speeds should be in the ratio of :

If the radii of circular path of two particles are in the ratio of 1 :2 , then in order to have same centripetal acceleration, their speeds should be in the ratio of :

If the radii of circular path of two particles are in the ratio of 1 :2 , then in order to have same centripatal acceleration, their speeds should be in the ratio of :

Two charged particles have charges and masses in the ratio 2:3 and 1:4 respectively. If they enter a uniform magnetic field and move with the same velocity then the ratio of their respective time periods of revolutions is

Two charged particles have charges and masses in the ratio 2:3 and 1:4 respectively. If they enter a uniform magnetic field and move with the same velocity then the ratio of their respective time periods of revolutions is

If the radii of circular path of two particles are in the ratio of 4:3 , then in order to have same centripatal acceleration, their speeds should be in the ratio of :

Two charged particles have charges and masses in the ration 2:3 and 1:4 respectively. If they enter a uniform magnetic field and move with the same velocity. Then the ratio of their respective time periods of revolution is

Two charged particles having masses in the ratio 2: 3 and charges in the ratio 1: 2 are released from rest in a uniform electric field. After a time 1 minute their K.E. will be in the ratio of