In the picture shown, a ball standing from rest rolls down a ramp AB,goes along at the horizontal bottom BC, and then backs up a smaller ramp CD, thereafter rolls on horizontal plance DE Ignore friction and air resistance. Which of the following figure shows variation in speed with time?

A force is applied to a cart moving along a horizontal track in the positive x direction. If the cart speeds up and then slows down, then which one of the following graphs best shows the variation of the force with time for the cart? Assume that friction is negligible.

A bullet of mass m is fired at speed v_0 into a wooden block of mass M. The bullet instantaneously comes to rest in the block. The block with the embedded bullet slides along a horizontal surface with a coefficient of kinetic friction mu . Which one of the following expressions determines how far the block slides before it comes to rest (the magnitude of displacement s is as shown in the figure)?

In one-dimensional kinematics, a particle can move strictly along a straight line. The description of motion of the particle can be done in two ways: (i) mathematical equation and (ii) graphs. The choice of a particular method for solving a problem often depends upon the type and nature of problem, for example the graphical method provides more physical insight One dimensional motion is categorised into 1. motion with constant velocity 2. motion with constant acceleration, and 3. accelerated and de-accelerated motion If you represent inotion (1) by the graph on position time and velocity-time coordinates, the graphs may look like as given below. One very interesting case comes up, when a particle is thrown at a certain angle from the horizontal, the particle travels in the medium along a curved path, known as parabola. - The trajectory of the parabola written in the mathematical equation is given by y=xtantheta-(1)/(2)(gx^(2))/((v_0costheta))^(2) Ineglect resistance of medium and its motion where Vs and are the initial velocity of the projectile and the projection angle at the point of projection measured with the + x axis. There are some applications which we have seen in our life, like in many game shows, the theory of the projectile is always used An air gun is aimed at an elevated target, which is released in a free fall by some mechanism as the bullet leaves the nozzle. Irrespective of falling speed of object, the bullet will always hit the target. QThe graph shows the psition of a hard ball with respect to time .The hard ball hits and rebounds on the hard surface .Ehich of the following graph represent the correct variation with repect to time?

A ball is released from rest and rolls down an inclined plane, as shown in the following figure, requiring 4s to cover a distance of 100 cm along the plane: Which one of the following is the correct value of angle theta that the plane makes with the horizontal? (g = 1000 cm//s^(2) )

A person of mass 75 kg works in a where his job is to arrange heavy articles in a stone - room As shown in figure he place a packing of mass 20 kg on a ramp that is inclined to the horizontal at 37^(@) and pushed it up the ramp with an acceleration 1.5ms^(-2) .This is the minimum acceleration for the packege to reach the top to the ramp.THe coefficient of static and friction between the shoes of the person and the ground is 0.8 and coefficient of kinetic friction for the motion of package on the is 0.5 Force of friction acting on the person is Now suppose that the ground is wet which reduces the coefficient of static friction between the shoes of the person and the ground of 0.2 (other value remaining unchanged) Answer the following question:

A vehicle is driven along a straight horizontal track by a motor which exerts a constant driving force. The vehicle starts from rest at t=0 and the effects of friction and air resistance are negligible. If the kinetic eneryg of the vehicle at time t is E and power developed by the motor is P, which of the following graphs are correct?

A large , heavy box is sliding without friction down a smooth plane of inclination theta . From a point P on the bottom of the box , a particle is projected inside the box . The initial speed of the particle with respect to the box is u , and the direction of projection makes an angle alpha with the bottom as shown in Figure . (a) Find the distance along the bottom of the box between the point of projection p and the point Q where the particle lands . ( Assume that the particle does not hit any other surface of the box . Neglect air resistance .) (b) If the horizontal displacement of the particle as seen by an observer on the ground is zero , find the speed of the box with respect to the ground at the instant when particle was projected .