In the figure shown , A and B are free of to move. All the surfaces are smooth. `(0 lt theta lt 90^(@))`

In the figure shown A and B are free to move . All the surface are smooth. Mass of A is m . Then

A particle is moving along a circle with a uniform speed v . Find (a) change in the magnitude of velocity and (b) the magnitude of change in the velocity when it has rotated an angle theta . (0 lt theta lt 90^(@))

Which of the following relations is correct for 0 < theta lt 90^(@) ?

Two smooth wedges of equal mass m are placed as shown in figure. All surfaces are smooth. Find the velocities of A & B when A hits the ground.

In the shown figure, if all the surface are smooth and the two masses are allowed to move then center of mass of the system will move

Describe the path of a charged particle moving in a uniform magnetic field with initial velocity (i) parallel to (or along) the field. (ii) perpendicular to the field. (iii) at an arbitrary angle theta (0^@ lt theta lt 90^@) .

The reflecting surface of two intersecting flat mirrors are at an angle theta (0^(@) lt theta lt 90^(@)) . As shown in Figure. For a light ray that strikes the horizontal mirror, the emerging ray intersects the incident ray at an angle beta . If one of the mirrors is rotated at (d theta)/(dt) = 1^(@)//s , then the angle beta changes aat the rate of

If (cos theta)/(1- sin theta) + (cos theta)/(1 + sin theta) =4 , then find the value of cos theta . Find theta if 0^(@) lt theta lt 90^(@)

In the previous problem ,find the magnitude of change in velocity if (a) 90^(@) lt theta lt 180^(@) , (b) 180^(@) lt theta lt 270^(@) and (c ) 270^(@) lt theta lt 360^(@) .

For what value of theta , is (tan theta + cosec theta) = 2.5 where 0 lt theta le 90^(@) ?