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Question

A spaceship of mass m0=500 kg moves in the absence of an external force with a constant velocity v0=50 m/s. To change the direction of motion, a jet engine is switched on. It starts ejecting a gas jet with velocity u=10 m/s which is constant relative to the spaceship and directed at right angles to the spaceship motion. The engine is shut down when the mass of the spaceship decreases to 400 kg. Through what angle α does the direction of motion of the spaceship deviate due to the jet engine operation? (Take ln(1.25)=0.223)

A
0.045
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B
0.45
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C
0.06
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D
0.08
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Solution

The correct option is A 0.045
For a variable mass system with constant rate of ejection dmdt, we have
mdvdt=Fudmdt
Given, external force F=0
mdvdt=udmdt or dv=udmm

Velocity of ejection of gas jet u is opposite in direction to change in velocity of spaceship dv.
We have |dv|=v0(dα) (because v0 is constant) where dα is the angle by which the spaceship turns in time dt.
So, v0dαudmm or dα=uv0dmm
(ve sign signifies decrease in mass)

Integrating both sides, we get
α=uv0mm0dmm=uv0ln(m0m)
Here, initial mass m0=500 kg and final mass m=400 kg, velocity of rocket v0=50 m/s and relative velocity of ejection of gas jet u=10 m/s
Substituting the above values,
α=1050 ln(500400)
α=0.045

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