Astronaut-Satellite Separation Calculation

In summary, the problem involves a spacewalking astronaut (80.0 kg) pushing off a satellite (620 kg) with a force of 100N for 0.590 seconds. The astronaut and the satellite are initially at rest and after 1.20 seconds, the distance between them is to be determined. To solve this problem, one must consider Newton's third law and the impulse-momentum theorem. Using conservation of energy, the work done by the astronaut can be converted into kinetic energy, and conservation of momentum must also be considered. The units of the numbers given are crucial in solving the problem. After performing the necessary calculations, the distance between the astronaut and the satellite after 1.20 seconds can be determined.
  • #1
sunbunny
55
0
I have no idea how to start this problem:

An 80.0 spacewalking astronaut pushes off a 620 satellite, exerting a 100 force for the 0.590 it takes him to straighten his arms.How far apart are the astronaut and the satellite after 1.20 ?

I know that it involves Newton's 3rd law since the astronaut is applying a force onto the satellite and in turn the satellite pushes back on the astronaut to cause him to move but other that that I'm confused how to solve this problem. If anyone can give me some feedback that would be great!

Thanks
 
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  • #2
First, you *must* include units with all of the numbers you list. They are meaningless otherwise.

Next, use conservation of energy to solve it. What work does the astronaut perform in the push? How does that convert into KE? And remember that conservation of momentum will also factor in.
 
  • #3
Your are correct, Newton's third law is crucial here, but one must also consider Newton's second law, or more specifically the impulse-momentum theorem.

Edit: Berkeman got there first :wink: Is the 0.590 a distance or a time period?
 
  • #4
sorry about forgetting the units.
An 80.0 kg spacewalking astronaut pushes off a 620kg satellite, exerting a 100N force for the 0.590s it takes him to straighten his arms.How far apart are the astronaut and the satellite after 1.20s ?
 
  • #5
So now go ahead and use the work/KE/momentum stuff and Hootenanny's suggestion. Show your work -- what answer do you get?
 

1. How do astronauts calculate their trajectory in space?

Astronauts use complex mathematical equations and computer programs to calculate their trajectory in space. This includes taking into account their initial velocity, gravitational forces, and other factors.

2. How do astronauts determine their position in space?

Astronauts use a combination of celestial navigation, GPS systems, and communication with ground control to determine their position in space. They may also use instruments such as a sextant to measure angles and determine their location.

3. How do astronauts calculate the amount of fuel needed for a mission?

Astronauts calculate the amount of fuel needed for a mission by taking into account the weight of their spacecraft, the distance they need to travel, and the amount of thrust their engines can produce. This information is then used to determine the amount of fuel needed for the journey.

4. How do astronauts calculate their oxygen consumption in space?

Astronauts calculate their oxygen consumption in space by measuring their metabolic rate and the amount of physical activity they will be doing during the mission. This information is then used to determine the amount of oxygen needed for the duration of the mission.

5. How do astronauts plan their re-entry into Earth's atmosphere?

Astronauts use complex calculations and simulations to plan their re-entry into Earth's atmosphere. This includes taking into account their speed, angle of entry, and the effects of air resistance. They also rely on ground control to monitor and make adjustments during re-entry.

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