Ending Illegal secrecy and Sirius Disclosure
on Breathing in space.
By Henryk Szubinski
ZERO GRAVITY effects, or not, the way we breathe, because our lungs are in zero gravity interactions resulting in no
oxygen pressure on the lungs. So then, any inhalation would not expand the lungs, neither does the exhalation compress them.
he only thing in
motion by way of expansion and contractions= the cognitive impulse do do so. Because oxygen is a regularly
dispersed matter, there are no inconsistencies with it's purity. It has regular flow and as such the breathing method
relies on only making inhalations as the impulse we were born with, to do liquid breathing in a cycle method
that is symbiotic with the fluidity and the one way flow of the fluidity dispersing the oxygen in it. So when in space
we have the ability to choose the vectors of breathing in or breathing out. It's obvious that the choice = to
breathe in. As such ,breathing in has no limitation on the duration of the inhalation because of the zero gravity and
the previous DNA program of our gestation and then our introduction into the world as having more oxygen and
as such forcing our lungs to alternate between inhalations and exhalations. When in space the inhalation does
not end in reference to some time limit. Rather the lungs will maintain the inhalation for as long as you want, and
the decisive function of this = that the human brain has the ability to cogitively project the amount of time or amount
of energy bits, that it needs to inhale and keep on doing so.
So that this cycle has 3 positions:
1)liquid inhalation and exhalation as gestation= buoyancy.
2) the oxygen inhalation and exhalation = Earth environment and gravity
3) Space and zero gravity where the computations of the brain 2nd level are related to the
amount of energy needed as the cognition displaces into level 1.
In either case, we have freedom of choice of which of the halves we want to use in space.
The use of the 3 as the cycle that connects on with the other simply defines the extension of time.
We gain it when were in the womb from the beginning, we find it when we are born ,and we experience
it in space.
These are the choices that any lungs would know.
from Wikipedia
date 2017,02,10.
Breathing (or respiration, or ventilation) is the process of moving air into and out of the lungs to facilitate gas exchange with the internal environment, mostly by bringing in oxygen and flushing out carbon dioxide.
All aerobic creatures need oxygen for cellular respiration, which uses the oxygen to break down foods for energy and produces carbon dioxide as a waste product. Breathing, or "external respiration", brings air into the lungs where gas exchange takes place in the alveolithrough diffusion. The body's circulatory system transports these gasses to and from the cells, where "cellular respiration" takes place.[1][2]
The breathing of all vertebrates with lungs consists of repetitive cycles of inhalation and exhalation through a highly branched system of tubes or airways which lead from the nose to the alveoli.[3] The number of respiratory cycles per minute is the breathing or respiratory rate, and is one of the four primary vital signs of life.[4] Under normal conditions the breathing depth and rate is automatically, and unconsciously, controlled by several homeostatic mechanisms which keep the partial pressures of carbon dioxide and oxygen in the arterial blood constant. Keeping the partial pressure of carbon dioxide in the arterial blood unchanged under a wide variety of physiological circumstances, contributes significantly to tight control of the pH of the extracellular fluids (ECF). Over-breathing (hyperventilation) and under-breathing (hypoventilation), which decrease and increase the arterial partial pressure of carbon dioxide respectively, cause a rise in the pH of ECF in the first case, and a lowering of the pH in the second. Both cause distressing symptoms.
Breathing has other important functions. It provides a mechanism for speech, laughter and similar expressions of the emotions. It is also used for reflexes such as yawning, coughing and sneezing. Animals that cannot thermoregulate by perspiration, because they lack sufficient sweat glands, may lose heat by evaporation through panting.
more:
Liquid breathing is a form of respiration in which a normally air-breathing organism breathes an oxygen-rich liquid (such as a perfluorocarbon), rather than breathing air.
Perfluorochemical (perfluorocarbon) molecules have very different structures that impart different physical properties such as respiratory gas solubility, density, viscosity, vapor pressure, and lipid solubility.[1] Thus, it is critical to choose the appropriate PFC for a specific biomedical application, such as liquid ventilation, drug delivery or blood substitutes. The physical properties of PFC liquids vary substantially; however, the one common property is their high solubility for respiratory gases. In fact, these liquids carry more oxygen and carbon dioxide than blood.[2]
In theory, liquid breathing could assist in the treatment of patients with severe pulmonary or cardiac trauma, especially in pediatric cases. Liquid breathing has also been proposed for use in deep diving[3][4] and space travel.[5] Despite some recent advances in liquid ventilation, a standard mode of application has not yet been established.
date 2017,02,10.
Breathing (or respiration, or ventilation) is the process of moving air into and out of the lungs to facilitate gas exchange with the internal environment, mostly by bringing in oxygen and flushing out carbon dioxide.
All aerobic creatures need oxygen for cellular respiration, which uses the oxygen to break down foods for energy and produces carbon dioxide as a waste product. Breathing, or "external respiration", brings air into the lungs where gas exchange takes place in the alveolithrough diffusion. The body's circulatory system transports these gasses to and from the cells, where "cellular respiration" takes place.[1][2]
The breathing of all vertebrates with lungs consists of repetitive cycles of inhalation and exhalation through a highly branched system of tubes or airways which lead from the nose to the alveoli.[3] The number of respiratory cycles per minute is the breathing or respiratory rate, and is one of the four primary vital signs of life.[4] Under normal conditions the breathing depth and rate is automatically, and unconsciously, controlled by several homeostatic mechanisms which keep the partial pressures of carbon dioxide and oxygen in the arterial blood constant. Keeping the partial pressure of carbon dioxide in the arterial blood unchanged under a wide variety of physiological circumstances, contributes significantly to tight control of the pH of the extracellular fluids (ECF). Over-breathing (hyperventilation) and under-breathing (hypoventilation), which decrease and increase the arterial partial pressure of carbon dioxide respectively, cause a rise in the pH of ECF in the first case, and a lowering of the pH in the second. Both cause distressing symptoms.
Breathing has other important functions. It provides a mechanism for speech, laughter and similar expressions of the emotions. It is also used for reflexes such as yawning, coughing and sneezing. Animals that cannot thermoregulate by perspiration, because they lack sufficient sweat glands, may lose heat by evaporation through panting.
more:
Liquid breathing is a form of respiration in which a normally air-breathing organism breathes an oxygen-rich liquid (such as a perfluorocarbon), rather than breathing air.
Perfluorochemical (perfluorocarbon) molecules have very different structures that impart different physical properties such as respiratory gas solubility, density, viscosity, vapor pressure, and lipid solubility.[1] Thus, it is critical to choose the appropriate PFC for a specific biomedical application, such as liquid ventilation, drug delivery or blood substitutes. The physical properties of PFC liquids vary substantially; however, the one common property is their high solubility for respiratory gases. In fact, these liquids carry more oxygen and carbon dioxide than blood.[2]
In theory, liquid breathing could assist in the treatment of patients with severe pulmonary or cardiac trauma, especially in pediatric cases. Liquid breathing has also been proposed for use in deep diving[3][4] and space travel.[5] Despite some recent advances in liquid ventilation, a standard mode of application has not yet been established.