Speed time graph of two cars `A` and `B` approaching towards each other is shown in figure. Initial distance between them is `60m`. The two cars will cross each other after `t` secons. Find value of it `t`.

Four equal circles, each of radius 5cm, touch each other as shown in Figure. Find the area included between them.

Four equal circles, each of radius 5cm, touch each other as shown in Figure. Find the area included between them.

Two loops are facing each other as shown in Figure. State whether the loops will attract each other or repel each other if current I_1 is increased

Consider two cars moving perpendicular to each other as shown. Initially distance between 100m. Velocity of A is 10sqrt(3) m/s and velocity of B is 10m/s. Then

The speed of a car as a function of time is shown in figure. Find the distance travelled by the car in 8 seconds and its acceleration.

Two waves are approaching each other with a velocity of 20m//s and frequency n . The distance between two consecutive nodes is

The speed-time graph of a particle moving along a fixed direction as shown in the figure. The distance traversed by the particle between t = 0 s to t = 10 s is

The velocity-time graphs of a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 s and (ii) the time at which the car will catch up with the scooter are, respectively.

Two cars are moving is one a same line dimension in opposite direction with the same speed v. The relative velocity of two cars w.r.t. each other is

Two pulses in a stretched string whose centres are initially 8 cm apart are moving towards each other as shown in the figure. The speed of each pulse is 2 cm/s. After 2 second, the total energy of the pulses will be