Likes
9
Share
São 3 plantas da CBD Auto da Fast Buds , qualidade comprovada , duas estão bem parecidas e uma deu uma alongada no caule mas tem também boas flores achknqje as 3 me deram uma boa colheita geral.
Likes
23
Share
Toda esta fantasía se hace realidad gracias a Royal Queen Seeds y @James por confiar en mí. 🚀💥 Fiel a su linaje genético, la Hyperion F1 ofrece un aroma intenso que está dominado por notas frescas de pino y hierba, junto con un trasfondo terroso y un delicioso toque especiado. Aunque todos nuestros híbridos F1 producen excelentes concentraciones de cannabinoides y terpenos, no hay duda de que la Hyperion destaca entre el resto. Sus cogollos alargados y escarchados producen una resina rica y cargada de cannabinoides (sobre todo THC), y terpenos como mirceno, ocimeno, farneseno, terpinoleno, cariofileno y humuleno. Esto no solo da lugar a un aroma muy fuerte, sino también a un efecto bien equilibrado que combina una relajación física (en gran parte gracias al mirceno y al farneseno) con la euforia, risa y efecto motivador de otros terpenos. Al igual que el dios de la luz del mismo nombre, la Hyperion F1 causa un subidón esclarecedor que se puede disfrutar a cualquier hora del día. 🌻🚀 Consigue aqui tus semillas: https://www.royalqueenseeds.es/semillas-de-marihuana-hibridas-f1/622-hyperion-f1.html 🍣🍦🌴 Xpert Nutrients es una empresa especializada en la producción y comercialización de fertilizantes líquidos y tierras, que garantizan excelentes cosechas y un crecimiento activo para sus plantas durante todas las fases de cultivo. Consigue aqui tus Nutrientes: https://xpertnutrients.com/es/shop/ 📆 Semana 5: Un temporal ha ralentizado el crecimiento, aunque ella sigue creciendo algo mas lento. No riego esta semana porque hay lluvias constantes que mantienen la humedad en el suelo. Esta semana creo que apareceran las preflores
Likes
26
Share
Gracias al equipo de FastBuds y XpertNutrients sin ellos esto no sería posible. 💐🍁 Gorilla Punch (Auto): Niveles fulminantes de THC. Testado en laboratorio con un 25,695 % en cannabinoides. Perfil rico en terpenos. Los complejos y sabrosos terpenos de esta variedad son codiciados tanto por los extractores como por los fabricantes de hachís. Rendimientos impresionantes. Los cultivadores pueden esperar hasta 550 g/m² de flores deliciosas y aromáticas, rebosantes de THC y otros jugosos cannabinoides. Prueba de excelencia. Dos premios al primer puesto en menos de dos años dejan claro que esta cepa es una auténtica campeona. 🌻🚀 Consigue aqui tus semillas: https://2fast4buds.com/es/seeds/gorilla-punch-auto ⛽ XpertNutrients: es una empresa especializada en la producción y comercialización de fertilizantes líquidos 🍶y sustratos🐛, que garantizan los mejores resultados y cosechas de la más alta calidad. A través de una cuidadosa selección de materias primas y un proceso de producción avanzado, sus productos son sinónimo de resultados confiables. 🛒 Consigue aqui tus fertilizantes: https://xpertnutrients.com/es/sobre-nosotros/#:~:text=Xpert%20Nutrients%20es%20una%20empresa,de%20la%20m%C3%A1s%20alta%20calidad. 📆 Semana 5: Un temporal ha ralentizado el crecimiento, aunque ella sigue creciendo algo mas lento. No riego esta semana porque hay lluvias constantes que mantienen la humedad en el suelo. Esta semana creo que apareceran las preflores.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
1
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.
Likes
45
Share
280nm = More than just a metric for a color of light, it is the frequency of the wave oscillation, 280nm is 0.00000028 meters, 2.8 x 10-7. For everything created by God is good, and nothing is to be rejected if it is received with thanksgiving, for it is made holy by the word of God and prayer (1 Timothy 4:4–5). Once a truck at work full of earth mixed with metal set off our radiation detector, after 4 positive tests for high radiation levels, the entire 18 wheeler had to be emptied and checked to find the source. No one could find anything, the nuclear technicians had to be called. they found that the rainwater had seeped out all the fertilizer from the soil, it was pottasium build-up to my disbelief. Unbeknown to us the earth was dug up from farmland. This was the backstory that set me off on a quest for this knowledge im about to share, I thought it was frickin awesome sauce. *puff puff pass* THORIUM Thorium, at atomic number 90, is one of the rarest elements. Named after Thor the God of thunder. 232Th is a primordial nuclide, having existed in its current form for over ten billion years; it was formed during the r-process, which probably occurs in supernovae and neutron star mergers. These violent events scattered it across the galaxy. The letter "r" stands for "rapid neutron capture", and occurs in core-collapse supernovae, where heavy seed nuclei such as 56Fe rapidly capture neutrons, running up against the neutron drip line, as neutrons are captured much faster than the resulting nuclides can beta decay back toward stability. Neutron capture is the only way for stars to synthesize elements beyond iron because of the increased Coulomb barriers that make interactions between charged particles difficult at high atomic numbers and the fact that fusion beyond 56Fe is endothermic. Because of the abrupt loss of stability past 209Bi, the r-process is the only process of stellar nucleosynthesis that can create thorium and uranium; all other processes are too slow and the intermediate nuclei alpha decay before they capture enough neutrons to reach these elements. Thorium is a naturally-occurring chemical element with atomic number 90, which means there are 90 protons and 90 electrons in the atomic structure. The chemical symbol for thorium is Th. Thorium was discovered in 1828 by Norwegian mineralogist Morten Thrane Esmark. Joens Jakob Berzelius, the Swedish chemist, named it after Thor, the Norse god of thunder. Thorium is a naturally-occurring element estimated to be about three times more abundant than uranium. Thorium is commonly found in monazite sands (rare earth metals containing phosphate minerals). Thorium has 6 naturally occurring isotopes. All of these isotopes are unstable (radioactive), but only 232Th is relatively stable with a half-life of 14 billion years, which is comparable to the age of the Earth (~4.5×109 years). Isotope 232Th belongs to primordial nuclides, and natural thorium consists primarily of isotope 232Th. Other isotopes (230Th, 229Th, 228Th, 234Th, and 227Th) occur in nature as trace radioisotopes, which originate from the decay of 232Th, 235U, and 238U. Histogram of estimated abundances of the 83 primordial elements in the Solar system Estimated abundances of the 83 primordial elements in the Solar system, plotted on a logarithmic scale. Thorium, at atomic number 90, is one of the rarest elements. In the universe, thorium is among the rarest of the primordial elements, because it is one of the two elements that can be produced only in the r-process (the other being uranium). POTASSIUM Potassium 40 is a radioisotope that can be found in trace amounts in natural potassium, is at the origin of more than half of the human body activity: undergoing between 4 and 5,000 decays every second for an 80kg man. Along with uranium and thorium, potassium contributes to the natural radioactivity of rocks and hence to the H"Earth". This isotope makes up one ten-thousandth of the potassium found naturally. In terms of atomic weight, it is located between two more stable and far more abundant isotopes (potassium 39 and potassium 41) that make up 93.25% and 6.73% of the Earth total potassium supply respectively. With a half-life of 1,251 billion years, potassium 40 existed in the remnants of dead stars whose agglomeration has led to the Solar System with its planets. Potassium 40 has the unusual property of decaying into two different nuclei: in 89% of cases beta-negative decay will lead to calcium 40, while 11% of the time argon 40 will be formed by electron capture followed by gamma emission at an energy of 1.46 MeV. This 1.46 MeV gamma ray is important, as it allows us to identify when potassium 40 decays. The beta electrons leading to calcium, however, are not accompanied by gamma rays, have no characteristic energies and rarely make it out of the rocks or bodies that contain potassium 40. Beta-minus decay indicates a nucleus with too many neutrons, electron capture a nucleus with too many protons. How can potassium 40 simultaneously have too many of both? The answer reveals one of the peculiarities of the nuclear forces. Everyone alive has roughly 140g of potassium = *0.016 grams of Potassium Isotope 40* The charge radius is a fundamental property of the atomic nucleus. Although it globally scales with the nuclear mass as A1/3, the nuclear charge radius also exhibits appreciable isotopic variations that are the result of complex interactions between protons and neutrons. Indeed, charge radii reflect various nuclear structure phenomena such as halo structures6, shape staggering7, shape coexistence8, pairing correlations9,10, neutron skins11, and the occurrence of nuclear magic numbers5,12,13. The term ‘magic number’ refers to the number of protons or neutrons corresponding to completely filled shells. In charge radii, a shell closure is observed as a sudden increase in the charge radius of the isotope just beyond magic shell closure, as seen, for example, at the well-known magic numbers N = 28, 50, 82 and 126 (refs. 5,12–14). In the nuclear mass region near potassium, the isotopes with proton number Z ≈ 20 and neutron number N = 32 are proposed to be magic on the basis of an observed sudden decrease in their binding energy beyond N = 32 (refs. 2,3) and the high excitation energy of the first excited state in 52Ca (ref. 1). Therefore, the experimentally observed a strong increase in the charge radii of calcium4 and potassium5 isotopes between N = 28 and N = 32, and in particular the large radius of 51K and 52Ca (both having 32 neutrons), have attracted substantial attention. https://www.nature.com/articles/s41567-020-01136-5.pdf “A cat has 9 lives” “On cloud 9” “Dressed to the nines” To go “the whole nine yards” “A stitch in time saves nine” “Nine-ness” seems to be synonymous with the maximum, with the furthest extent of what’s possible. With fullness, completion, and when every effort has been exhausted. In the ancient world (which is, let’s face it, is where numbers and their spiritual power were understood SO much more than they are today) the number 9 resonated with sacred structure, and the furthest limitations of this world, before human experience meets the Divine. Perhaps more than any other, the number nine had an extra special significance, which spread far and wide. It features across pretty much all cultures, worldwide, rippling through culture, mythology, history, law and time. Nine is the central number in the ancient Celtic tradition. Nine expresses through the triple Goddess (see Number 3) and in myths of the nine Celtic maidens, or sorceresses. In fact, stories of nine mystical women presiding over nature spread from England, Ireland and Wales, to Scandinavia, Iceland and even as far as Kenya. Even today, it’s tradition for nine groups of nine men to dance around Beltane fires. The limit of winter (which is what Beltane Almost all of the mythological tales from around the world have patterns of the number 9 weaving throughout. The Northern European sagas tell of Odin, who rules over the nine Norse worlds. His trial, to win the secrets of wisdom for mankind, was to hang on the Yggdrasil tree for nine days. Demeter, the Greek Goddess of the Earth searched for nine days for her daughter Persephone (who was in the underworld with Hades). Demeter is often depicted holding nine pieces of corn. Once recovered, Persephone was obliged to spend three months per year below the ground, and nine months above. Native American, Mayan and Aztec myths tell of a total of nine cosmic levels (and many of the temples comprise 9 stories). And in ancient China, nine was the most auspicious number of divine power: the Chinese had nine sacred rites, nine social laws, nine classes of officials in the government and built nine-story pagodas. In astrology, the planet Mars vibrates to the frequency of the nine. The ninth sign of the Zodiac is Sagittarius (where the Sun sails from November 22nd – December 21st) In Tarot, card number nine is the Hermit. In Hinduism, nine is the number of Brahma. In the Greek Sagas, the city of Troy was under siege for nine years. Azomite has 180ppm Thorium iirc.