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Question

A car at rest on a horizontal surface (with coefficient of friction 0.1) has total mass 50 kg. Gases are ejected from this car backwards with relative velocity 20 m/s. The rate of ejection of gases is 2 kg/s. Total mass of gas is 20 kg. Find the maximum speed of the car in (m/s)
Take g=10 m/s2,ln(43)=0.29


A
0.2 m/s
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B
0.8 m/s
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C
0.6 m/s
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D
0.4 m/s
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Solution

The correct option is B 0.8 m/s
Given,
Total mass of the car (m0)=50 kg
Total mass of the gas (m)=20 kg
Relative velocity of ejection of gases vr=20 m/s
& Rate of ejection =2 kg/s

Car will start moving when the thrust force overcomes the limiting force of friction.
i.e μmg=vr(dmdt)
0.1×(502t)×10=20×2 (m=m0μt)
t=5 s
Therefore, car will start moving after t=5 seconds

At t=5 s, mass of the car will be
502×5=40 kg
Total time taken to consume fuel (t)=10 s
At t=10 s, mass of the car will be 30 kg

Assuming t=0 when the car starts moving, this means max velocity will be achieved at t=105=5 s
Thus, final velocity (max) of the car will be
v=vrln(m0m)μgt
vmax=20×ln(4030)0.1×10×(105)=0.80 m/s

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