hrome File Edit View History Bookmarks People Window Help Homework #6 C o udent/

Question

hrome File Edit View History Bookmarks People Window Help Homework #6 C o udent/Assignment-Responses/submit?dep-18379001 6 P025 Notes Ask Your An astronaut in her space suit has a total mass of m-101.0 kg, including suit and oxygen tank. Her tether line loses its attachment to her spacecraft while she's on a spacewalk. Initially at rest with respect to her spacecraft, she throws her oxygen tank of mass m2-12.0-kg away from her spacecraft with a speed v- 7.20 m/s to propel herself back toward it (see figure). m, (a) Determine the maximum distance she can be from the craft and still return within 2.30 min (the amount of time the air in her helmet remains breathable) (b) Explain in terms of Newton's laws of motion why this strategy works Need Help? Read It Talk to a Tutor Show My Work (optinal Show A sidential%20po-.pptx !..

Explanation / Answer

Mass of the astronaut m1 = 101 -12 = 89 kg

mass of the Oxy cylinder, m2 = 12 kg

Forward momentum of the cylinder, p1 = 12x7.20 = 86.4 kg.m/s

Backward momentum of the astronaut, p2 =89xV

Total momentum after throwing, p1 + p2.

Total p before throwing = 0

Conservation of momentum: p1 + p2 = 0

             p1 = - p2

89v =86.4

             v= 86.4/89 = .97 m/s

Max distance,

         S = v.t =.97x2.30x60 =133.86m

Explanation:

Newton's 3rd law Action and reaction are equal andopposite.

The force exerted by the astronaut on thecylinder(action)

= the force exerted by the cylinder on theastronaut(reaction).

From 2nd law.

Total momentum of a system remains conserved when there is nonet externalforce acting on it.

Total momentum of the astonaut + cylinder before throw

= Total momentum of the astonaut + cylinderafterthrow.

Related Questions

Navigate

• Browse (All)
• Browse H
• Subjects

---

---

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.