Initially a man and a car both are stationary and situated at a distance of `100 m`. Now both starts moving simltaneously in the same direction as shown in figure. Then :

Initially car A is 10.5 m ahead of car B . Both start moving at time t = 0 in the same direction along a straight line. The velocity-time graph of two cars is shown in figure. The time when the car B will catch the car A , will be.

Two cars A and B moving on two straight tracks inclined at an angle 60^(@) heading towards the crossing initially their positions are as shown in the figure. Both cars have same speed. Minimum seperation between them during their motion will be.

An automobile engine propels a 1000 kg car (A) along a levelled road at a speed of 36 km//h. Find the power if the opposing frictional force is 100 N Now, suppose after travelling a distance of 200 m, this car collides with another stationary car (B) of same mass and comes to rest. Let its engine also stop at the same time. Now car (B) starts moving on the same level road without getting its engine started. Find the speed of the car (B) just after the collision.

Two cars are moving in the same direction with the same speed 30 km//hr . They are separated by a distance of 5 km , the speed of a car moving in the opposite direction of it meets these two cars at an interval of 4 minutes, will be.

Two cars are moving in the same direction with the same speed 30 km//hr . They are separated by a distance of 5 km , the speed of a car moving in the opposite direction of it meets these two cars at an interval of 4 minutes, will be.

A man standing on a moving escalator, completes a certain distance in time t_(1) . If the escalator does not move then man covers this distance in time t_(2) by walking. (i) How much time will he take to cover the same distance if he move on the moving escalator in the same direction ? (ii) How much time will he take to cover the same distance if he move on the moving escalator in the opposite direction ?

Initially a car is moving with speed of 20 ms^(-1) and covers a distance of 100 m before it comes to rest. On making the initial speed of car 40 ms^(-1) keeping the acceleration same, the distance travelled by car before it comes to rest is

A coil and a magnet moves with their constant speeds 5m//sec and 3m//sec . Respectively , towards each other, then induced emf in coil is 16 m V . If both are moves in same direction , then induced emf in coil :-

A mirror of radius of curvature 20cm and an object which is placed at a distance of 15cm are both moving with velocities 1ms^(-1) and 10ms^(-1) as shown in Fig. Fing the velocity of image at this situation.

Figure shows the system is at rest initially with x = 0 , A man and a woman both are initially at the extreme carrier of the platform. The man and the woman start to move towards each other. Obtain an expression for the displacement s of the platform when the two meet in terms of the displacement x_1 of the man relative to the platform.