A couple of astronauts agree to rendezvous in space after hours. Their plan is to let gravity bring them together. One of them has a mass of 65 kg and the other a mass of 72 kg, and they start from rest 20.0 m apart. (a) Make a free-body diagram of each astronaut, and use it to find his or her initial acceleration. As a rough approximation, we can model the astronauts as uniform spheres. (b) If the astronauts' acceleration remained constant, how many days would they have to wait before reaching each other? (Careful! They both have acceleration toward each other.) (c) Would their acceleration, in fact, remain constant? If not, would it increase or decrease? Why?

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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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**Problem Description:**

A couple of astronauts agree to rendezvous in space after hours. Their plan is to let gravity bring them together. One of them has a mass of 65 kg, and the other has a mass of 72 kg, starting 20.0 m apart.

**Tasks:**

(a) Make a free-body diagram of each astronaut, and use it to find his or her initial acceleration. As a rough approximation, model the astronauts as uniform spheres.

(b) If the astronauts’ acceleration remained constant, determine how many days they would have to wait before reaching each other. (Note: They both have acceleration towards each other.)

(c) Would their acceleration remain constant? If not, would it increase or decrease? Explain why.
Transcribed Image Text:**Problem Description:** A couple of astronauts agree to rendezvous in space after hours. Their plan is to let gravity bring them together. One of them has a mass of 65 kg, and the other has a mass of 72 kg, starting 20.0 m apart. **Tasks:** (a) Make a free-body diagram of each astronaut, and use it to find his or her initial acceleration. As a rough approximation, model the astronauts as uniform spheres. (b) If the astronauts’ acceleration remained constant, determine how many days they would have to wait before reaching each other. (Note: They both have acceleration towards each other.) (c) Would their acceleration remain constant? If not, would it increase or decrease? Explain why.
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