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Question

A gun mounted on a car moving at a speed of 25 m/s fires at an angle of 60 with the horizontal and a velocity of 200 m/s relative to the gun in the direction of motion of the car. Find the distance between the gun and the bullet when the bullet hits the ground.

A
2000 m
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B
2500 m
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C
20003 m
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D
5003 m
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Solution

The correct option is C 20003 m
As we know distance between any two point is independent of frame of reference.Therefore solving this question in frame of car.

Horizontal component of velocity of bullet w.r.t car; vx=200cos 60 m/s=100 m/s
Vertical component of velocity of bullet w.r.t car; vy=200sin 60 m/s=1003 m/s

Time of flight;t=2vyg=2×100310=203 s

Distance covered by the bullet in timet=vx×t=100×203 m=20003 m

Distance between the gun and the bullet =Distance covered by the bullet in time t in car frame =20003 m


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