Working in a Vacuum & zero gravity

In summary, the conversation discussed the testing and protection of space suits in the vacuum of space. It was mentioned that the vacuum in space may not be as intense as in a laboratory, and that everyday materials are used to protect astronauts. The pressure in a space suit to protect the wearer was questioned, along with the pressure on the suit in space compared to an underwater training environment. The conversation also touched on the seals on the helmet and the challenges of maintaining them. The speaker also mentioned that sealing a space suit is not as difficult as it may seem and that the vacuum requirements for space suits are not as demanding as those for research experiments on Earth.
  • #1
Gapster
2
0
Having seen plenty of 'vacuum in a tube' tests on youtube I am wondering how a human can work in such an environment. I'm trying to understand how a space suit can be tested before it is used 'live' in space, and how seemingly 'everyday' materials are used to protect astronauts from the harsh environment.

Is the vacuum in space as 'intense' as a vacuum in a laboratory?
What pressure would be in a space suit to protect the wearer?
What pressure(s) would a vacuum have on a suit in space compared to an underwater training environment?
What kind of seals would there likely be on the helmet?
 
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  • #2
Gapster said:
I'm trying to understand how a space suit can be tested before it is used 'live' in space,

air pressured leak tests

Gapster said:
What pressure would be in a space suit to protect the wearer?
What pressure(s) would a vacuum have on a suit in space compared to an underwater training environment?
What kind of seals would there likely be on the helmet?

what searching have you done so far ?
I'm sure there would be info on NASA or other space sites that would give answers to most of this
Gapster said:
What pressure(s) would a vacuum have on a suit in space compared to an underwater training environment?

well, they would be opposite for a start
 
  • #4
Gapster said:
Having seen plenty of 'vacuum in a tube' tests on youtube I am wondering how a human can work in such an environment. I'm trying to understand how a space suit can be tested before it is used 'live' in space, and how seemingly 'everyday' materials are used to protect astronauts from the harsh environment.

Is the vacuum in space as 'intense' as a vacuum in a laboratory?
What pressure would be in a space suit to protect the wearer?
What pressure(s) would a vacuum have on a suit in space compared to an underwater training environment?
What kind of seals would there likely be on the helmet?

In terms of structural integrity of something, once one get from the viscous regime into the molecular vacuum regime, it no longer makes significant difference on how low the pressure gets in testing stuff. So we can easily test structural integrity in vacuum of 10-3 Torr and this will allows us to know that the structure will also hold up at lower pressures.

Maintain seals is a different issue. It also depends on what you are sealing against, because in terms of space suits where you are making sure there is always a positive pressure inside the suits, the seal isn't as stringent as, say, a vacuum chamber that needs to make sure there is as few contaminants as possible and having to maintain 10-11 Torr of pressure. In the latter, even the outgassing from the walls of the chamber is an issue, which is not a problem for space suits.

So while most people think that trying to seal a space suit must be difficult, in terms of the technique alone, what we do on Earth for the vacuum requirement in condensed matter/material science research experiments can be significantly more demanding that those space suits.

Zz.
 

Related to Working in a Vacuum & zero gravity

What is a vacuum and how does it affect working in space?

A vacuum is a space that is completely devoid of matter, including air and other gases. In space, there is no atmospheric pressure, which makes it difficult for humans to survive without proper equipment. This lack of pressure also means that sound cannot travel and heat cannot be transferred, making it challenging to work in a vacuum.

How does zero gravity affect the human body?

Zero gravity, also known as microgravity, is the condition in which the apparent weight of a body is zero. This can cause many physiological changes in the human body, such as loss of muscle mass and bone density, changes in the cardiovascular system, and redistribution of bodily fluids. Astronauts must undergo rigorous physical training to prepare for the effects of zero gravity on their bodies.

What challenges do scientists face when working in a vacuum and zero gravity?

Working in a vacuum and zero gravity presents many challenges for scientists. Equipment and experiments must be specially designed to function in these conditions, as they cannot rely on gravity or air pressure to operate. Additionally, astronauts must adapt to working in a weightless environment, which can be disorienting and challenging.

How do astronauts perform tasks in a vacuum and zero gravity?

Astronauts and scientists working in space use specialized tools and equipment designed for use in a vacuum and zero gravity. They may also use tethers and foot restraints to keep themselves anchored to their workstations. Furthermore, astronauts must undergo extensive training to learn how to manipulate objects and perform tasks in a weightless environment.

Why is studying and working in a vacuum and zero gravity important for scientific research?

Studying and working in a vacuum and zero gravity allows scientists to conduct experiments and research that would not be possible on Earth. This unique environment provides insights into the behavior of materials and systems without the influence of gravity, which can help advance our understanding of the universe and develop new technologies. Additionally, studying the effects of zero gravity on the human body can help improve our understanding of space travel and how to keep astronauts safe during long-term missions.

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