Consider the situation given in (Fig. 5.71). Two cars are moving along road `1` and `2`. Draw the direction of the motion of
(a) Car `B` as seen from car `A`.
(b) Car `A` as seen from car `B`.
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Two roads one , along the y - axis and another along a direction at angle theta with x - axis, are as shown in (Fig. 5.68). Two cars A and B are moving along the roads. Considerthe situation of the diagram. Draw the direction of (a) Car B as seen from car A . (b) Car A as seen car B . .

Two roads interest at right angle , one goes along the x - axis, another along the y - axis. At any instant, two cars A bad B moving along y and x directions, respectively, meet at intersection. Draw the direction of the motion of car A as seen from car B . .

Figure given shows the distance - time graph of the motion of a car. It follows from the graph that the car is

The velocity-time graph of a car moving along a straight road is shown in figure. The average velocity of the car in first 25 seconds is

Two cars A and B are moving towards each other with samne speed 25 m/s. wind is blowing with speed 5 m/s in the direction of motion of car A. The car A blows horn of frequency 300 Hz and the sound is reflected from car B. the wavelength of te reflected sound received by the driver of car A is (velocity of sound in air =330m/s)

The velocity-time graph of a car moving along a straight road is shown in figure. The average velocity of the car is first 25 seconds is

Two cars A and B are moving on parallel roads in the same direction. Car A moves with constant velocity 30m//s and car B moves with constant acceleration 2.5 m//s^(2) . At , car A is ahead of car B and car B is moving with 12 m//s velocity . The distance travelled by car B until it overtakes car A is

A man in an open car moving with high speed, throws a ball his full capacity along the direction of the motion of the car . Now the same man throws the same ball when the car is not moving. In which case the ball possesses more kinetic energy in (a) ground frame (b) car frame.

Two cars A and B are moving away from each other in opposite directions. Both the cars are moving with a speed of 20 ms^(-1) with respect to the ground. If an observer in car A detects a frequency 2000 Hz of the sound coming from car B, what is the natural frequency of the sound source in car B? (Speed of sound in air = 340 ms^(-1) )

A car moves at a constant speed on a straigh but hilly road. One section has a crest and dip of the 250m radius. (a) As the car passes over the crest the normal force on the car is half the 16kN weight of the car. What will the noraml force on the car its passes through th ebottom of the dip? (b) What is the greatest speed at which the car can move without leaving the road at the top of the hill ? (c) Moving at a speed found in part (b) what will be the normal force on the car as it moves through the bottom of the dip? (Take, g=10m//s^(2))