scifi science.
Hearing and flatness on Mars
Henryk Szubinski
As related to the sense of hearing and the left and right hemispheres of the brain and the center of cognition as related to the "plain of ideal happiness" on Mars where the Insight probe is positioned as relating to the functions of the compression of air pressure on this plain as indicative of the most balanced left and right hearing because of the flatness of the plain.
For example, the sequence of orientation numbers to balance on such flat plains as any numbers in the following type of sequence=
ratio's of the
left ,left, center center, right right.
as applied to measurements of the human brain and the need for balance on the surface of Mars as the flatness gives more stability to the human body and the sense of balance of left ,center, and right.
So the facts of oxygen being in less than half percent, the sounds recorded on Mars by the insight mission indicates the flatness of sound.
evidence of flatness from Wikipedia
date used 2019
January 14
The concept of "curvature of space" is fundamental to cosmology. A space without curvature is called a "flat space" or Euclidean space[citation needed]. Whether the universe is “flat″ could determine its ultimate fate; whether it will expand forever, or ultimately collapse back into itself. The geometry of spacetime has been measured by the Wilkinson Microwave Anisotropy Probe (WMAP) to be nearly flat. According to the WMAP 5-year results and analysis, “WMAP determined that the universe is flat, from which it follows that the mean energy density in the universe is equal to the critical density (within a 1% margin of error). This is equivalent to a mass density of 9.9 × 10−30 g/cm3, which is equivalent to only 5.9 protons per cubic meter.”[1] The WMAP data are consistent with a flat geometry, with Ω = 1.02 +/- 0.02.
The flatness problem (also known as the oldness problem) is a cosmological fine-tuning problem within the Big Bang model of the universe. ... In the case of the flatness problem, the parameter which appears fine-tuned is the density of matter and energy in the universe.
Hearing and flatness on Mars
Henryk Szubinski
As related to the sense of hearing and the left and right hemispheres of the brain and the center of cognition as related to the "plain of ideal happiness" on Mars where the Insight probe is positioned as relating to the functions of the compression of air pressure on this plain as indicative of the most balanced left and right hearing because of the flatness of the plain.
For example, the sequence of orientation numbers to balance on such flat plains as any numbers in the following type of sequence=
ratio's of the
left ,left, center center, right right.
as applied to measurements of the human brain and the need for balance on the surface of Mars as the flatness gives more stability to the human body and the sense of balance of left ,center, and right.
So the facts of oxygen being in less than half percent, the sounds recorded on Mars by the insight mission indicates the flatness of sound.
evidence of flatness from Wikipedia
date used 2019
January 14
The concept of "curvature of space" is fundamental to cosmology. A space without curvature is called a "flat space" or Euclidean space[citation needed]. Whether the universe is “flat″ could determine its ultimate fate; whether it will expand forever, or ultimately collapse back into itself. The geometry of spacetime has been measured by the Wilkinson Microwave Anisotropy Probe (WMAP) to be nearly flat. According to the WMAP 5-year results and analysis, “WMAP determined that the universe is flat, from which it follows that the mean energy density in the universe is equal to the critical density (within a 1% margin of error). This is equivalent to a mass density of 9.9 × 10−30 g/cm3, which is equivalent to only 5.9 protons per cubic meter.”[1] The WMAP data are consistent with a flat geometry, with Ω = 1.02 +/- 0.02.
The flatness problem (also known as the oldness problem) is a cosmological fine-tuning problem within the Big Bang model of the universe. ... In the case of the flatness problem, the parameter which appears fine-tuned is the density of matter and energy in the universe.
In reference to flatness and hearing as the fluids inside the human ear.
Flatness refers to the shape of a liquid's free surface. On planet Earth, the flatness of a liquid is a function of the curvature of the Earth, and from trigonometry, can be found to deviate from true flatness by approximately 19.6 nanometers over an area of 1 square meter, a deviation which is dominated by the effects of surface tension. This calculation using the Earth's mean radius at sea level, however a liquid will be slightly flatter at the poles.
The 4 semicircular ducts indicate their balance as being flat in reference to their level of fluid being equal to one plane of balance together, they give more than just balance.
Flatness refers to the shape of a liquid's free surface. On planet Earth, the flatness of a liquid is a function of the curvature of the Earth, and from trigonometry, can be found to deviate from true flatness by approximately 19.6 nanometers over an area of 1 square meter, a deviation which is dominated by the effects of surface tension. This calculation using the Earth's mean radius at sea level, however a liquid will be slightly flatter at the poles.
The 4 semicircular ducts indicate their balance as being flat in reference to their level of fluid being equal to one plane of balance together, they give more than just balance.
evidence from wikipedia
date 2019
January 14
Spectral flatness or tonality coefficient,[1][2] also known as Wiener entropy,[3][4] is a measure used in digital signal processing to characterize an audio spectrum. Spectral flatness is typically measured in decibels, and provides a way to quantify how noise-like a sound is, as opposed to being tone-like.[2]
The meaning of tonal in this context is in the sense of the amount of peaks or resonant structure in a power spectrum, as opposed to flat spectrum of a white noise. A high spectral flatness (approaching 1.0 for white noise) indicates that the spectrum has a similar amount of power in all spectral bands — this would sound similar to white noise, and the graph of the spectrum would appear relatively flat and smooth. A low spectral flatness (approaching 0.0 for a pure tone) indicates that the spectral power is concentrated in a relatively small number of bands — this would typically sound like a mixture of sine waves, and the spectrum would appear "spiky".[5]
The spectral flatness is calculated by dividing the geometric mean of the power spectrum by the arithmetic mean of the power spectrum, i.e.:
Maximum spectral flatness (approaching 1) is achieved by white noise.
Here is then, the sounds of wind on Mars as being flattened.
Here is then, the sounds of wind on Mars as being flattened.
So then, the flatness has some center as the place where the insight probe landed as the sound it made.
evidence wikipedia
date 2019
January 14
A 2005 photo of a locale in Elysium Planitia at 5°N, 150°E by the Mars Express spacecraft shows what may be ash-covered water ice. The volume of ice is estimated to be 800 km (500 mi) by 900 km (560 mi) in size and 45 m (148 ft) deep, similar in size and depth to the North Sea.[3] The ice is thought to be the remains of water floods from the Cerberus Fossae fissures about 2 to 10 million years ago. The surface of the area is broken into 'plates' like broken ice floating on a lake (see below). Impact crater counts show that the plates are up to 1 million years older than the gap material, showing that the area solidified much too slowly for the material to be basaltic lava.[4]
So we know the flatness is related to the horizontal by about 45 meters depth and 800 km to 900 km as the equation for the geometry being
approximately 850 m
so then :
850 /45 =18.88888 meters change of elevation and the balance of left to right as the 4 semi circular ducts of the ear on
the left = 18.88/4=4.7222
So both ears and their ducts are
18.888 / 8=2.361 meters elevation balance on the plain of ideal happiness.
Could this be the comparative to Albedo as on Earth.
Albedo is described by Wikipedia below.
evidence wikipedia
date 2019
January 14
A 2005 photo of a locale in Elysium Planitia at 5°N, 150°E by the Mars Express spacecraft shows what may be ash-covered water ice. The volume of ice is estimated to be 800 km (500 mi) by 900 km (560 mi) in size and 45 m (148 ft) deep, similar in size and depth to the North Sea.[3] The ice is thought to be the remains of water floods from the Cerberus Fossae fissures about 2 to 10 million years ago. The surface of the area is broken into 'plates' like broken ice floating on a lake (see below). Impact crater counts show that the plates are up to 1 million years older than the gap material, showing that the area solidified much too slowly for the material to be basaltic lava.[4]
So we know the flatness is related to the horizontal by about 45 meters depth and 800 km to 900 km as the equation for the geometry being
approximately 850 m
so then :
850 /45 =18.88888 meters change of elevation and the balance of left to right as the 4 semi circular ducts of the ear on
the left = 18.88/4=4.7222
So both ears and their ducts are
18.888 / 8=2.361 meters elevation balance on the plain of ideal happiness.
Could this be the comparative to Albedo as on Earth.
Albedo is described by Wikipedia below.
Wikipedia
date 2019
January 14
Albedo (/ælˈbiːdoʊ/) (Latin: albedo, meaning 'whiteness') is the measure of the diffuse reflection of solar radiation out of the total solar radiation received by an astronomical body (e.g. a planet like Earth). It is dimensionless and measured on a scale from 0 (corresponding to a black body that absorbs all incident radiation) to 1 (corresponding to a body that reflects all incident radiation).
Surface albedo is defined as the ratio of irradiance reflected to the irradiance received by a surface. The proportion reflected is not only determined by properties of the surface itself, but also by the spectral and angular distribution of solar radiation reaching the Earth's surface.[1] These factors vary with atmospheric composition, geographic location and time (see position of the Sun). While bi-hemispherical reflectance is calculated for a single angle of incidence (i.e., for a given position of the Sun), albedo is the directional integration of reflectance over all solar angles in a given period. The temporal resolution may range from seconds (as obtained from flux measurements) to daily, monthly, or annual averages.
Unless given for a specific wavelength (spectral albedo), albedo refers to the entire spectrum of solar radiation.[2] Due to measurement constraints, it is often given for the spectrum in which most solar energy reaches the surface (between 0.3 and 3 μm). This spectrum includes visible light (0.39–0.7 μm), which explains why surfaces with a low albedo appear dark (e.g., trees absorb most radiation), whereas surfaces with a high albedo appear bright (e.g., snow reflects most radiation).
date 2019
January 14
Albedo (/ælˈbiːdoʊ/) (Latin: albedo, meaning 'whiteness') is the measure of the diffuse reflection of solar radiation out of the total solar radiation received by an astronomical body (e.g. a planet like Earth). It is dimensionless and measured on a scale from 0 (corresponding to a black body that absorbs all incident radiation) to 1 (corresponding to a body that reflects all incident radiation).
Surface albedo is defined as the ratio of irradiance reflected to the irradiance received by a surface. The proportion reflected is not only determined by properties of the surface itself, but also by the spectral and angular distribution of solar radiation reaching the Earth's surface.[1] These factors vary with atmospheric composition, geographic location and time (see position of the Sun). While bi-hemispherical reflectance is calculated for a single angle of incidence (i.e., for a given position of the Sun), albedo is the directional integration of reflectance over all solar angles in a given period. The temporal resolution may range from seconds (as obtained from flux measurements) to daily, monthly, or annual averages.
Unless given for a specific wavelength (spectral albedo), albedo refers to the entire spectrum of solar radiation.[2] Due to measurement constraints, it is often given for the spectrum in which most solar energy reaches the surface (between 0.3 and 3 μm). This spectrum includes visible light (0.39–0.7 μm), which explains why surfaces with a low albedo appear dark (e.g., trees absorb most radiation), whereas surfaces with a high albedo appear bright (e.g., snow reflects most radiation).
The percentage of diffusely reflected sunlightrelative to various surface conditions.
The albedo for sun light as related to the new discovery of albedo of sound ,as in this scifi theory .In that case, the albedo might be interactive on Earth and on Mars in various types of albedo that are yet to be discovered.
Because the surface of the elysium planitia has much ice coverage, the albedo for the light reflecting on it and the sound albedo as interacting ,depending on the height reference as the :
2,361 meters average.
the albedo height would be ,then as :
The volume of ice is estimated to be 800 km (500 mi) by 900 km (560 mi) in size and 45 m (148 ft) deep, (Wikipedia).
The albedo for sun light as related to the new discovery of albedo of sound ,as in this scifi theory .In that case, the albedo might be interactive on Earth and on Mars in various types of albedo that are yet to be discovered.
Because the surface of the elysium planitia has much ice coverage, the albedo for the light reflecting on it and the sound albedo as interacting ,depending on the height reference as the :
2,361 meters average.
the albedo height would be ,then as :
The volume of ice is estimated to be 800 km (500 mi) by 900 km (560 mi) in size and 45 m (148 ft) deep, (Wikipedia).
There might be some comparison of the visual albedo and the audial as in the ratio of 1 : 2.361
Some insights while i was working at this , is that Kennedy and his speech about: "Not because they are easy, but because they are hard" as related to prince Erhart or Erhard.
So the clue is the translations of the English to German.The reference is to the "Camelot" as the castle of the grail and king Lionheart.
While on the 3rd crusade this king must have gone through the ancient Greek lands and this would be where he encountered the gods of Greece, namely the God Apollo.
Probably the unwritten version but one does confront various cultures on the way.
The English is:
wikipedia
date 2019
January 14
Richard I (8 September 1157 – 6 April 1199) was King of England from 1189 until his death. He also ruled as Duke of Normandy, Aquitaine and Gascony, Lord of Cyprus, Count of Poitiers, Anjou, Maine, and Nantes, and was overlord of Brittany at various times during the same period. He was the third of five sons of King Henry II of England and Duchess Eleanor of Aquitaine. He was known as Richard Cœur de Lion or Richard the Lionheart because of his reputation as a great military leader and warrior.[1] He was also known in Occitan as Oc e No (Yes and No), because of his reputation for terseness.[2]
By the age of 16, Richard had taken command of his own army, putting down rebellions in Poitou against his father.[1] Richard was a central Christian commander during the Third Crusade, leading the campaign after the departure of Philip II of France and scoring considerable victories against his Muslim counterpart, Saladin, although he did not retake Jerusalem from Sala
image of Kennedy at his speech , to go to the Moon.
credit:
buckleyschool.com
Some insights while i was working at this , is that Kennedy and his speech about: "Not because they are easy, but because they are hard" as related to prince Erhart or Erhard.
So the clue is the translations of the English to German.The reference is to the "Camelot" as the castle of the grail and king Lionheart.
While on the 3rd crusade this king must have gone through the ancient Greek lands and this would be where he encountered the gods of Greece, namely the God Apollo.
Probably the unwritten version but one does confront various cultures on the way.
The English is:
wikipedia
date 2019
January 14
Richard I (8 September 1157 – 6 April 1199) was King of England from 1189 until his death. He also ruled as Duke of Normandy, Aquitaine and Gascony, Lord of Cyprus, Count of Poitiers, Anjou, Maine, and Nantes, and was overlord of Brittany at various times during the same period. He was the third of five sons of King Henry II of England and Duchess Eleanor of Aquitaine. He was known as Richard Cœur de Lion or Richard the Lionheart because of his reputation as a great military leader and warrior.[1] He was also known in Occitan as Oc e No (Yes and No), because of his reputation for terseness.[2]
By the age of 16, Richard had taken command of his own army, putting down rebellions in Poitou against his father.[1] Richard was a central Christian commander during the Third Crusade, leading the campaign after the departure of Philip II of France and scoring considerable victories against his Muslim counterpart, Saladin, although he did not retake Jerusalem from Sala
image of Kennedy at his speech , to go to the Moon.
credit:
buckleyschool.com