FAC 611 - Hidden Histories: Difference between revisions
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* [https://www.youtube.com/watch?v=oVWEb-At8yc Sabaton - Bismarck] | * [https://www.youtube.com/watch?v=oVWEb-At8yc Sabaton - Bismarck] | ||
=== [[Nuke Hoax]] (?) === | |||
One of the most obscure areas where '''[[science]]''' (and its result; engineering); '''reality''', and '''[[scientism]]''' (Clownworld narratives) are very hard to separate. On purpose. Most of it is magic and not functional, but until where. | |||
We heard seriously? about mobile particle accelerators and would be good to hear more about that. | |||
The natural radiated areas on Earth we were talking about (especially [[:Category:Psyops in Brazil|Brazil]] and [[:Category:Psyops in Australia|Australia]]):<ref name=RadioPlaces group="M">[https://www.momtastic.com/webecoist/2013/01/22/hot-spots-earths-5-most-naturally-radioactive-places/ Hot Spots: Earth’s 5 Most Naturally Radioactive Places]</ref> | |||
;Rio de Janeiro state, [[:Category:Psyops in Brazil|Brazil]] | |||
<blockquote>"Located in the south-western part of Brazil, the state of Rio de Janeiro is geotectonically contained within a complex structural province that resulted in the '''amalgamation of the Western Gondwana Paleocontinent'''. | |||
To undertake an extensive radiological characterization of this complex geological province and investigate the influence of bedrock, soil type and soil chemical-physical characteristics on '''natural radionuclide levels in soils''', 259 surface soil samples were collected that encompassed the main soil types and geological formations throughout the state. | |||
Gamma spectrometry analysis of the samples resulted in median values of 114 Bq.kg-1for 40K, 32 Bq.kg-1 for 226Ra and 74 Bq.kg-1 for 228Ra. The median value for 226Ra was similar to the world median value for soils, the 40K value was well below the worldwide value, and that for 228Ra exceeded the world median value. The intense weathering caused by the high rainfall rates and high temperatures may be responsible for the low levels of 40K in the soils, of which the strongly acidic and clayey soils are markedly K-depleted. | |||
A soil from a high-grade metamorphic rock (granulite) presented the lowest 226Ra (18 Bq.kg-1) content, whereas the highest levels for 226Ra (92 Bq.kg-1) and 228Ra (139 Bq.kg-1) were observed in a young soil enriched in primary minerals (Leptsol). A lowland soil (Gleysol) showed the highest median of 40K (301 Bq.kg-1). Strongly acidic soils tended to present high amounts of 226Ra, and sandy soils tended to contain low levels of 228Ra. | |||
The external radiation dose indicates that the state has a background radiation level within the natural range."<ref name=RadioBraz group="M">[https://www.ncbi.nlm.nih.gov/pubmed/29182917 Natural radioactivity in soils of the state of Rio de Janeiro (Brazil): Radiological characterization and relationships to geological formation, soil types and soil properties]</ref></blockquote> | |||
;Guarapari, [[:Category:Psyops in Brazil|Brazil]] | |||
<blockquote>"Brazilian beaches may be famous for solar radiation (among other things) but strollers on Guarapari‘s pristine white sand shores may want to apply sunscreen to their soles as well. | |||
According to The National Center for Biotechnology Information (NCBI), the sands of Atlantic coast beaches running from '''north of Rio de Janeiro down to south of Bahia (roughly <big>500 miles</big>) are naturally radioactive'''. The source is '''sand eroded from Monazite, an ore of the naturally radioactive element <u>thorium</u>''' commonly found in mountains backing the shore. | |||
'''Radiation levels are highest at Guarapari’s beaches, a popular seasonal tourist attraction, where readings of up to 175 mSv (millisieverts)) per year have been measured.''' Compare this figure with the current annual '''safe limit for nuclear workers: 20 mSv a year.''' | |||
'''Not coincidentally, Japanese government’s enforced 20 km exclusion zone around the stricken [[Fukushima event|Fukushima]] Daiichi [[Nuke Hoax|nuclear power plant]] is also rated at 20 mSv per year."'''<ref name=RadioPlaces group="M"/></blockquote> | |||
;Ramsar, [[:Category:Psyops in Iran|Iran]] | |||
<blockquote>"Think 175 mSv’s a walk in the park? We see your Guarapari and raise you a Ramsar – Ramsar, Iran to be exact. This city and county on the southern coast of the Caspian Sea is famous (or should we say, infamous) for having '''the highest levels of natural background radiation on Earth: 250 mSv per year!''' | |||
Background radiation levels '''up to 80 times the world average''' peak in the city’s Talesh Mahalleh district, where '''natural hot springs are abundant and limestone sourced from the area is used to make bricks and masonry used in area homes.''' | |||
Studies on the approximately 2,000 people living in the highest NBR areas show slightly lower rates of lung cancer – an unexpected result considering the elevated levels of radioactive radon gas in their homes. In addition, the population exhibits a significantly higher expression of the CD69 gene responsible for the production of lymphocytes (white blood cells in vertebrate immune systems) and natural killer (NK) cells. Ramsar, by the way, has been known from ancient times as '''a popular seaside vacation resort featuring medicinal hot springs – folk chemotherapy at its finest!'''"<ref name=RadioPlaces group="M"/></blockquote> | |||
;Paralana Hot Springs, Arkaroola, [[:Category:Psyops in Australia|Australia]] | |||
<blockquote>"You'll find the Paralana hot springs inside the Arkaroola Wilderness Sanctuary located in the arid northern Flinders ranges of South Australia but if you’re planning a hike in the area, bring your lead boots… and we don’t mean Led Boots on your MP3 player though a little Jeff Beck goes down easy just about anywhere. '''Subterranean springs flowing through uranium-rich rocks over 1 billion years old bring radioactive radon and uranium to the surface'''; hikers are well advised to refill their canteens somewhere else. | |||
Flickr user and photographer Liam.jon_d (Bill Doyle) has posted an exquisite set of images taken during a visit to the Paralana hot springs in April of 2011. | |||
'''That greenish glow you see isn’t what you might expect: it’s life, thriving between a rock and a hard (radiation) place! So-called “extremophile” blue-green algae flourish in the area’s hot springs, shrugging off water temperatures of up to 62 degrees centigrade heated not by geothermal energy but from radioactive decay.'''"<ref name=RadioPlaces group="M"/></blockquote> | |||
;Yangjiang, [[:Category:Psyops in China|China]] | |||
<blockquote>"People living in the town of Yangjiang, located in China’s southern Guangdong province, have traditionally built their homes from bricks made of sand and clay. Trouble is, the sand in the region has eroded from hills containing '''monazite''' and once '''incorporated in bricks and mortar, thorium in the monazite sand continues to decay into radioactive radium, radon and actinium'''. It’s estimated that residents in the most highly affected areas of Yangjiang live with annual NBR exposures '''three times the world’s average'''. | |||
A series of studies on people living in Yangjiang’s highest areas of natural background radiation dating back to 1970 indicated the mortality of residents from cancer was at or lower than that of residents in control groups living in areas with average exposure. '''Researchers believe that chronic exposure to higher than average radiation levels may have triggered an adaptive response mechanism that offers some protection from noted debilitating effects of radioactivity.''' The aforementioned info may or may not influence your decision to visit Yangjiang’s highly regarded hot springs resort."<ref name=RadioPlaces2 group="M">[https://www.momtastic.com/webecoist/2013/01/22/hot-spots-earths-5-most-naturally-radioactive-places/2/ Hot Spots: Earth’s 5 Most Naturally Radioactive Places 2]</ref></blockquote> | |||
;Karunagappally, [[:Category:Psyops in India|India]] | |||
<blockquote>"Karunagappally, a municipality in the Kollam district of Kerala, southwestern India, has been occupied since ancient times and as of the year 2001 had a population of approximately 610,000. Though today the region’s minerals are being exploited by rare earth metal mining operations, some of those minerals ('''monazite''' to be exact) have been '''eroding into beach sand and alluvial deposits for millions of years'''. | |||
A 2009 study of background radiation and cancer incidence in Kerala conducted by the Regional Cancer Center in Trivandrum, Kerala, India concluded that “In site-specific analysis, no cancer site was significantly related to cumulative radiation dose. Leukemia was not significantly related to HBR, either.”"<ref name=RadioPlaces2 group="M"/></blockquote> | |||
== See also == | == See also == | ||
Revision as of 09:33, 15 September 2019
| FAC 611 "Hidden Histories" | |
| Live | September 14, 2019 |
| Length | 2:50:00 |
| Guests | seriously?, Fliegenfuerst, Geris Rollo and Gaia |
| Listen | FAC 611 - "Hidden Histories" |
| Discuss | Fakeologist Discord |
FAC 611, Fakeologist Audio Chat, or "Hidden Histories" was a podcast aired on September 14, 2019 for 02:50:00. Participants were new member seriously?, Fliegenfuerst, Geris, Rollo and Gaia. Topics discussed varied from Anatoly Fomenko, """Tartaria""", Tesla Towers, CERN, Quantum Computing, giants (?), Plan Patagonia, Flat Earth, Concave Earth, Celestial Models, meteorites, asteroids, impact craters on Earth, Nuke Hoax, Chain Reactions, mobile particle accelerators, truth seeking, art (M.C. Escher and Salvador Dalì especially), historical narratives, Stonehenge, Tutankhamen's Mask, Tiwanaku, Cusco, Pyramids of Gizeh, Piri Reis map, Waldseemüller map, Alans/Aryans, Asian languages, Mongolian languages, Yuan dynasty, Arctic exploration, Muisca, Frieslandt, Oera Linda book, Coudenhove-Kalergi-Haushofer Plan, space fakery, topology, way lines, electromagnetism, FRAC 13, FART 42 and more...
Material
- Background
- Wiki - Anatoly Fomenko (pathetic!)
- Wiki - Topology
- Wiki - 20 Massalia asteroid
- Wiki - Río Cuarto craters
- Hot Spots: Earth’s 5 Most Naturally Radioactive Places
- Natural radioactivity in soils of the state of Rio de Janeiro (Brazil): Radiological characterization and relationships to geological formation, soil types and soil properties
- Moebius strip with ants - M.C. Escher
- Wiki - List of possible impact structures on Earth
- Salvador Dalì - Dali at the Age of Six When He Thought He Was a Girl Lifting the Skin
- Salvador Dalì -
- Saved from the Flood ~ Oera Linda Studies
- 2016-03-31 - Red Ice TV - Jan Ott - Oera Linda Book: An Ancient Frisian Manuscript - Hour 1
- Music
Nuke Hoax (?)
One of the most obscure areas where science (and its result; engineering); reality, and scientism (Clownworld narratives) are very hard to separate. On purpose. Most of it is magic and not functional, but until where.
We heard seriously? about mobile particle accelerators and would be good to hear more about that.
The natural radiated areas on Earth we were talking about (especially Brazil and Australia):[M 1]
- Rio de Janeiro state, Brazil
"Located in the south-western part of Brazil, the state of Rio de Janeiro is geotectonically contained within a complex structural province that resulted in the amalgamation of the Western Gondwana Paleocontinent.
To undertake an extensive radiological characterization of this complex geological province and investigate the influence of bedrock, soil type and soil chemical-physical characteristics on natural radionuclide levels in soils, 259 surface soil samples were collected that encompassed the main soil types and geological formations throughout the state.
Gamma spectrometry analysis of the samples resulted in median values of 114 Bq.kg-1for 40K, 32 Bq.kg-1 for 226Ra and 74 Bq.kg-1 for 228Ra. The median value for 226Ra was similar to the world median value for soils, the 40K value was well below the worldwide value, and that for 228Ra exceeded the world median value. The intense weathering caused by the high rainfall rates and high temperatures may be responsible for the low levels of 40K in the soils, of which the strongly acidic and clayey soils are markedly K-depleted.
A soil from a high-grade metamorphic rock (granulite) presented the lowest 226Ra (18 Bq.kg-1) content, whereas the highest levels for 226Ra (92 Bq.kg-1) and 228Ra (139 Bq.kg-1) were observed in a young soil enriched in primary minerals (Leptsol). A lowland soil (Gleysol) showed the highest median of 40K (301 Bq.kg-1). Strongly acidic soils tended to present high amounts of 226Ra, and sandy soils tended to contain low levels of 228Ra.
The external radiation dose indicates that the state has a background radiation level within the natural range."[M 2]
- Guarapari, Brazil
"Brazilian beaches may be famous for solar radiation (among other things) but strollers on Guarapari‘s pristine white sand shores may want to apply sunscreen to their soles as well.
According to The National Center for Biotechnology Information (NCBI), the sands of Atlantic coast beaches running from north of Rio de Janeiro down to south of Bahia (roughly 500 miles) are naturally radioactive. The source is sand eroded from Monazite, an ore of the naturally radioactive element thorium commonly found in mountains backing the shore.
Radiation levels are highest at Guarapari’s beaches, a popular seasonal tourist attraction, where readings of up to 175 mSv (millisieverts)) per year have been measured. Compare this figure with the current annual safe limit for nuclear workers: 20 mSv a year.
Not coincidentally, Japanese government’s enforced 20 km exclusion zone around the stricken Fukushima Daiichi nuclear power plant is also rated at 20 mSv per year."[M 1]
- Ramsar, Iran
"Think 175 mSv’s a walk in the park? We see your Guarapari and raise you a Ramsar – Ramsar, Iran to be exact. This city and county on the southern coast of the Caspian Sea is famous (or should we say, infamous) for having the highest levels of natural background radiation on Earth: 250 mSv per year!
Background radiation levels up to 80 times the world average peak in the city’s Talesh Mahalleh district, where natural hot springs are abundant and limestone sourced from the area is used to make bricks and masonry used in area homes.
Studies on the approximately 2,000 people living in the highest NBR areas show slightly lower rates of lung cancer – an unexpected result considering the elevated levels of radioactive radon gas in their homes. In addition, the population exhibits a significantly higher expression of the CD69 gene responsible for the production of lymphocytes (white blood cells in vertebrate immune systems) and natural killer (NK) cells. Ramsar, by the way, has been known from ancient times as a popular seaside vacation resort featuring medicinal hot springs – folk chemotherapy at its finest!"[M 1]
- Paralana Hot Springs, Arkaroola, Australia
"You'll find the Paralana hot springs inside the Arkaroola Wilderness Sanctuary located in the arid northern Flinders ranges of South Australia but if you’re planning a hike in the area, bring your lead boots… and we don’t mean Led Boots on your MP3 player though a little Jeff Beck goes down easy just about anywhere. Subterranean springs flowing through uranium-rich rocks over 1 billion years old bring radioactive radon and uranium to the surface; hikers are well advised to refill their canteens somewhere else.
Flickr user and photographer Liam.jon_d (Bill Doyle) has posted an exquisite set of images taken during a visit to the Paralana hot springs in April of 2011.
That greenish glow you see isn’t what you might expect: it’s life, thriving between a rock and a hard (radiation) place! So-called “extremophile” blue-green algae flourish in the area’s hot springs, shrugging off water temperatures of up to 62 degrees centigrade heated not by geothermal energy but from radioactive decay."[M 1]
- Yangjiang, China
"People living in the town of Yangjiang, located in China’s southern Guangdong province, have traditionally built their homes from bricks made of sand and clay. Trouble is, the sand in the region has eroded from hills containing monazite and once incorporated in bricks and mortar, thorium in the monazite sand continues to decay into radioactive radium, radon and actinium. It’s estimated that residents in the most highly affected areas of Yangjiang live with annual NBR exposures three times the world’s average. A series of studies on people living in Yangjiang’s highest areas of natural background radiation dating back to 1970 indicated the mortality of residents from cancer was at or lower than that of residents in control groups living in areas with average exposure. Researchers believe that chronic exposure to higher than average radiation levels may have triggered an adaptive response mechanism that offers some protection from noted debilitating effects of radioactivity. The aforementioned info may or may not influence your decision to visit Yangjiang’s highly regarded hot springs resort."[M 3]
- Karunagappally, India
"Karunagappally, a municipality in the Kollam district of Kerala, southwestern India, has been occupied since ancient times and as of the year 2001 had a population of approximately 610,000. Though today the region’s minerals are being exploited by rare earth metal mining operations, some of those minerals (monazite to be exact) have been eroding into beach sand and alluvial deposits for millions of years. A 2009 study of background radiation and cancer incidence in Kerala conducted by the Regional Cancer Center in Trivandrum, Kerala, India concluded that “In site-specific analysis, no cancer site was significantly related to cumulative radiation dose. Leukemia was not significantly related to HBR, either.”"[M 3]
See also
References
Research
Mainstream
- ↑ 1.0 1.1 1.2 1.3 Hot Spots: Earth’s 5 Most Naturally Radioactive Places
- ↑ Natural radioactivity in soils of the state of Rio de Janeiro (Brazil): Radiological characterization and relationships to geological formation, soil types and soil properties
- ↑ 3.0 3.1 Hot Spots: Earth’s 5 Most Naturally Radioactive Places 2