Are astronauts weightless in orbit?

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Astronauts are not weightless in orbit due to being beyond the pull of gravity; gravity still exists but is slightly weaker at orbital distances. Their apparent weightlessness results from being in a state of free fall, where the only force acting on them is gravity. This means that while they still have weight, there are no opposing contact forces, making them feel weightless. The concept is similar to an object dropped from a height, which experiences weight but appears weightless during its fall. Thus, astronauts experience weightlessness because they are continuously falling towards Earth while moving forward at high speed, maintaining their orbital path.
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Homework Statement


If someone told you that astronauts are weightless in orbit because they are beyond the pull of gravity, would you accept this statement? Explain.


Homework Equations





The Attempt at a Solution


I say no. There is still gravity, but its just weaker with distance.

Can someone help me understand the concept? Am i in the right direction?
 
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mizzy said:

Homework Statement


If someone told you that astronauts are weightless in orbit because they are beyond the pull of gravity, would you accept this statement? Explain.


Homework Equations





The Attempt at a Solution


I say no.
Correct.
There is still gravity, but its just weaker with distance.
Gravity is a bit weaker, but only about 10% weaker. That does not explain their apparent weightlessness.
Can someone help me understand the concept? Am i in the right direction?
You are not in the right direction. What causes their apparent weightlessness? A 200 pound astronaut still weighs about 180 pounds a few hundred miles up.
 
Think bigger...
 
They are weightless because they are in free fall. The only force acting on them is gravity. In this case, Earth's gravity.
 
True, but what makes weight is gravity and an opposing force. So weightlessness and gravity doesn't go together. They are simply masses with no external forces apart from the gravity ...thus, in free fall.
 
so would that be the answer, because they are in free fall?
 
mizzy said:
so would that be the answer, because they are in free fall?
Yes, when an object or person is subject to gravity forces only (no contact forces),it is said to be in a state of 'free fall' . It's like dropping an object from a tall building (assuming no air resistance); the object still has weight (W=mg) during its decent, but because there is no contact force acting on it, it is 'apparently' weightless during the fall ( a scale attached to the botton of it would read zero). Of course, an astronaut and his/her ship does not fall straight down to Earth in exactly the same way, becuse of its high speed keeping it in orbit due to the centripetal force supplied by Earth's gravity causing it to move in a circle while nonetheless continuously 'falling' toward earth.
 

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