when a proton is released from rest in a room, it starts with an initital acceleration `a_0` towards west . When it is projected towards north with a speed `v_0,` it moves with an initial acceleration `3a_0` towards west. Find the elecrtic field and the minimum possible magnetic field in the room.

A positively charges particle (alpha particle) projected towards west is deflected towards north by a magnetic field . The direction of magnetic field is ……

A bus starting from rest moves with a uniform acceleration of 0.1 ms ^(-2) for 2 minutes. Find (a) the speed acquiresd (b) the distance travelled.

A car is moving along a circular track with tangential acceleration of magnitude a_(0) . It just start to slip at speed v_(0) then find radius of circle (Coeffecient of friction is mu ) ?

When a proton of KE = 1.0 MeV moving towards North enters a magnetic field (directed along East), it accelerate with an acceleration, a=10^(12)m//s^(2) . The magnitude of the magnetic field is

A projectile is projected from ground with initial velocity vecu=u_(0)hati+v_(0)hatj . If acceleration due to gragvity (g) is along the negative y-direction then find maximum displacement in x-direction.

An object A is kept fixed at the point x= 3 m and y = 1.25 m on a plank p raised above the ground . At time t = 0 the plank starts moving along the +x direction with an acceleration 1.5 m//s^(2) . At the same instant a stone is projected from the origin with a velocity vec(u) as shown . A stationary person on the ground observes the stone hitting the object during its downward motion at an angle 45(@) to the horizontal . All the motions are in the X -Y plane . Find vec(u) and the time after which the stone hits the object . Take g = 10 m//s

A car of mass m starts from rest and acquires a velocity along east, v - vhat(i) (v gt 0) in two seconds. Assuming the car moves with uniform acceleration, the force exerted on the car is

A particle starts from rest and moves on a curve with constant angular acceleration of 3.0 rad//s^(2) . An observer starts his stopwatch at a certain instant and recond that the particle covers an angular span of 120 rad at the end of 4^(th) second. How long the particle has moved when the observer started his stopwatch?

Two cars a and B starts motion with a velocity of 10 m//s and 20 m//s respectively. Car a moves with a constant acceleration of 2.5 m//s^(2) and car B have constant acceleration of 0.5 m//s^(2) as shown in figure. Find when car A will over take car B. Dimension of car is negligible as compare to distance. Find the time after which car A over takes car B.