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A 70-kg astronaut (including spacesuit and equipment) is floating at rest a distance of 13 m from the spaceship when she runs out of oxygen and fuel to power her back to the spaceship. She removes her oxygen tank (3.0 kg) and flings it away from the ship at a speed of 15 m/s relative to the ship.

Required:
a. At what speed relative to the ship does she recoil toward the spaceship?
b. How long must she hold her breath before reaching the ship?

User Amaury
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1 Answer

14 votes
14 votes

Answer:

Step-by-step explanation:

mass of the astronaut including the spacesuit,
M=30

distance of astronaut from the spaceship, d = 13 m

mass of the oxygen tank, m = 3 kg

Speed of tank with respect to spaceship,
v=15~m/s

a)

Using the conservation of linear momentum:

total momentum before collision = total momentum after collision


M.u=m.v+(M-m)v'


0=3* 15+(70-15)* v'


v'=0.82~m/s

b)

She mush hold her breath until she reaches the spaceship, i.e.


t=d/v'


t=13/0.82


t=15.89~s