SPACECRAFT REENTRY COMMUNICATIONS BLACKOUT. When a spacecraft such as the Space Shuttle leaves orbit and reenters the atmosphere as it travels to a landing site, there is a critical period of time when all communications between the spacecraft and ground are lost.
The communications blackouts that affect spacecraft re-entering the Earth's atmosphere, which are also known as radio blackouts, ionization blackouts, or reentry blackouts, are caused by an envelope of ionized air around the craft, created by the heat from the compression of the atmosphere by the craft.
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Science how stuff works.
could it be possible to define the ,"black out " on a spaceship in reentry to be sent to earth or on a satellite so as to define a possible ,"communication of the events happening in the spaceship".
Possibly ,the language would be the alphabet as pulses of black out's.
a=1 pulse
and b=2 pulse
c= 3 pulses
and so on.
So it could be possible to define the "unknown" in space just as everything about space exploration being to define the unknown.
image credit: forbes.
Possibly ,the language would be the alphabet as pulses of black out's.
a=1 pulse
and b=2 pulse
c= 3 pulses
and so on.
So it could be possible to define the "unknown" in space just as everything about space exploration being to define the unknown.
image credit: forbes.
image credit:
Wikipedia
Wikipedia
The basics of the language would be to define the spaceship as 3 letters ,meaning the first 3 as
abc= 3 dimensional positions of the space craft.
And then to define the inner dimension as the +- 3 extra dimensions of using the root functions so that letters
4 and 25 for example=d and y
as well as the pulse rate being the amount of one letter for each unit of time being = 4 second or 0.25 seconds
as related to the root being defined as the
4=2
25=5
and as such the time function of measure =each 1/10 th of a second so that the language uses the values 0.2 sec
and 0.025 sec.
As the reentry is progressive in the amount of heat generated, the functions of the "heat or luminosity" could be defined as
on the scale of the point where it starts and where it ends as a function of the x with the y as the a= heat beginning and the
z function= where the heat ends.
Also the planet Earth could be defined as the dark side of Earth = the functions that are somewhat known, that Earth breathes out
at day time when the temperature is high and breathes in at night when the temperature is lower.
So as to define this as a to z and the amounts of oxygen involved, these types of measurements could define the black outs on
many planets and even the Moon.
The amount of astronauts and their value in terms of letters for example, 3 astronauts=c.
abc= 3 dimensional positions of the space craft.
And then to define the inner dimension as the +- 3 extra dimensions of using the root functions so that letters
4 and 25 for example=d and y
as well as the pulse rate being the amount of one letter for each unit of time being = 4 second or 0.25 seconds
as related to the root being defined as the
4=2
25=5
and as such the time function of measure =each 1/10 th of a second so that the language uses the values 0.2 sec
and 0.025 sec.
As the reentry is progressive in the amount of heat generated, the functions of the "heat or luminosity" could be defined as
on the scale of the point where it starts and where it ends as a function of the x with the y as the a= heat beginning and the
z function= where the heat ends.
Also the planet Earth could be defined as the dark side of Earth = the functions that are somewhat known, that Earth breathes out
at day time when the temperature is high and breathes in at night when the temperature is lower.
So as to define this as a to z and the amounts of oxygen involved, these types of measurements could define the black outs on
many planets and even the Moon.
The amount of astronauts and their value in terms of letters for example, 3 astronauts=c.
Basically, a good pilot will be able to have his eyes wide open when approaching the Sun. So this event of keeping the eyes open could be used as a record of pupil dialation that then translates to how long an astronaut can keep his eyes open so as to reference it to the amount of time that the space ship reentry is taking place.
image credit: steemit.
Planet that absorbs light rather than emit or deflect light.
Planet that absorbs light rather than emit or deflect light.
There are other planets that exist on their own, outside any known star systems, and this gives them a fainter glow.
But such a planet could theoretically be possible to create an electric glow by using a system where a dome of light
generates the amount of light needed. There are some scifi stories about the "wandering Earth" as the Earth becomes the
space ship for humanity as the plan being to displace Earth to another star.
image credit:
goodreads.
But such a planet could theoretically be possible to create an electric glow by using a system where a dome of light
generates the amount of light needed. There are some scifi stories about the "wandering Earth" as the Earth becomes the
space ship for humanity as the plan being to displace Earth to another star.
image credit:
goodreads.
Do jot look directly at galaxies with the eye.
It may be that the space would be so bright that we would not know we are looking at something infinitely brighter than we know of.
The "why" is that the space that displaces the light could be in the dark energy section of human vision, meaning it does not respond
to the way humans respond to light. we would try to locate the brightness but it is already so bright, even without human observation, that
you would not notice the dark matter of the heat and the dark energy of the brightness.
It may be that the space would be so bright that we would not know we are looking at something infinitely brighter than we know of.
The "why" is that the space that displaces the light could be in the dark energy section of human vision, meaning it does not respond
to the way humans respond to light. we would try to locate the brightness but it is already so bright, even without human observation, that
you would not notice the dark matter of the heat and the dark energy of the brightness.
The light moving through intergalactic space could be so bright that to not see it we would have to use dials to reduce it.
It is basically how we evolved technology to observe the universe, that we gave it the ability to reduce the brightness
value so that we would see it better. That's logical. But why would we want to observe something so bright that we
would not know what we are looking at , that basically opens or widens the aperture , meaning we open the
light going in through the lens to observe something in a clearer image. Opening the aperture creates more light displacing
through it, even when you focus on a galaxy to observe it better.
Aperture refers to the opening of a lens's diaphragm through which light passes. It is calibrated in f/stops and is generally written as numbers such as 1.4, 2, 2.8, 4, 5.6, 8, 11 and 16
credit
Wikipedia:
In optics, an aperture is a hole or an opening through which light travels. More specifically, the aperture and focal length of an optical system determine the cone angle of a bundle of rays that come to a focus in the image plane. An optical system typically has many openings or structures that limit the ray bundles. Wikipedia
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my nomadic lens
It is basically how we evolved technology to observe the universe, that we gave it the ability to reduce the brightness
value so that we would see it better. That's logical. But why would we want to observe something so bright that we
would not know what we are looking at , that basically opens or widens the aperture , meaning we open the
light going in through the lens to observe something in a clearer image. Opening the aperture creates more light displacing
through it, even when you focus on a galaxy to observe it better.
Aperture refers to the opening of a lens's diaphragm through which light passes. It is calibrated in f/stops and is generally written as numbers such as 1.4, 2, 2.8, 4, 5.6, 8, 11 and 16
credit
Wikipedia:
In optics, an aperture is a hole or an opening through which light travels. More specifically, the aperture and focal length of an optical system determine the cone angle of a bundle of rays that come to a focus in the image plane. An optical system typically has many openings or structures that limit the ray bundles. Wikipedia
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credit:
my nomadic lens
As it is, the aperture of lenses today are geared to "fit into the shape of a galaxy" .Looking at the radius values in it,defines the way that galactic spiral arms rotate around the center of a galaxy.
So we are trained to observe the edges of the galaxy and that's where the light should be the brightest. as such increasing the risk of, "dark energy blindness" even more.
The aperture closes and reduces light but that's after the comparison has been made with a zone of less light, and the center is the brightest. That's our normal response in vision. But when you totally open the aperture to see dim objects far away and you know that their size does not make them less bright. That's the way the eye looks at the Sun. It responds to the light further away by not looking at it, other wise we would go blind, because the Sun is far away and smaller, but we still damage the retina.
So our eyes do not open up, even on the scale of the Sun, every star bigger than our own sun has to have a greater amount of light moving from it, and yet we look at them and do not see the effect of blindness because our visual aperture has closed into the smaller zone so we would see it better.
And so we design lenses where the aperture gets reduced and we do not have enough space to see a star.
The aperture would need to be ordered into the sequence of:
f/16 to f/ 1.4 as bright to dim.
not as
f/1.4 to f/16 as dim to bright.
In this way the dark matter would give you the shock that the light from a distant star has enough light to blind the eye looking at it.
And that's the reality of light, that because it moves through larger and larger amounts of space, it gets brighter and brighter to the
point when only space is visable.
So we are trained to observe the edges of the galaxy and that's where the light should be the brightest. as such increasing the risk of, "dark energy blindness" even more.
The aperture closes and reduces light but that's after the comparison has been made with a zone of less light, and the center is the brightest. That's our normal response in vision. But when you totally open the aperture to see dim objects far away and you know that their size does not make them less bright. That's the way the eye looks at the Sun. It responds to the light further away by not looking at it, other wise we would go blind, because the Sun is far away and smaller, but we still damage the retina.
So our eyes do not open up, even on the scale of the Sun, every star bigger than our own sun has to have a greater amount of light moving from it, and yet we look at them and do not see the effect of blindness because our visual aperture has closed into the smaller zone so we would see it better.
And so we design lenses where the aperture gets reduced and we do not have enough space to see a star.
The aperture would need to be ordered into the sequence of:
f/16 to f/ 1.4 as bright to dim.
not as
f/1.4 to f/16 as dim to bright.
In this way the dark matter would give you the shock that the light from a distant star has enough light to blind the eye looking at it.
And that's the reality of light, that because it moves through larger and larger amounts of space, it gets brighter and brighter to the
point when only space is visable.