From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #5436 Reply-To: ammf@fruvous.com Sender: owner-ammf-digest@smoe.org Errors-To: owner-ammf-digest@smoe.org Precedence: bulk alt.music.moxy-fruvous digest Monday, December 7 2020 Volume 14 : Number 5436 Today's Subjects: ----------------- =?utf-8?Q?=E2=9C=8CGreen_Veggie_Causes_Diabetes_Type_2_in_Milli ons?= ["D] =?utf-8?Q?=E2=99=AB=E2=99=ACMan_Clears_Tinnitus_Overnight_By_Li stening_To_THIS_Music=E2=99=AC=E2=99=AC?= ["Cause Of Tinnitus..." <] Youâve Been Nominated for inclusion with Whoâs Who⦠["**Joan Riley**" ] ---------------------------------------------------------------------- Date: Sun, 6 Dec 2020 06:14:43 -0500 From: "Diabetes Freedom" Subject: =?utf-8?Q?=E2=9C=8CGreen_Veggie_Causes_Diabetes_Type_2_in_Milli ons?= =?utf-8?Q?=E2=9C=8CGreen_Veggie_Causes_Diabetes_Type_2_in_Millions?= http://stopcold.buzz/9V-F-rpRpIjW9T5XZhOYWfyTN12YPy4AslyMXLtRdvoIwlQV http://stopcold.buzz/a9aylXF_hChbgSge4zSuCAQEF9bxlVtcAdyqxqs7-UPzczSr tructed of layers of chitin and air gives rise to the iridescent colours of various butterfly wing scales as well as to the tail feathers of birds such as the peacock. Hooke and Newton were correct in their claim that the peacock's colours are created by interference, but the structures responsible, being close to the wavelength of light in scale (see micrographs), were smaller than the striated structures they could see with their light microscopes. Another way to produce a diffraction grating is with tree-shaped arrays of chitin, as in the wing scales of some of the brilliantly coloured tropical Morpho butterflies (see drawing). Yet another variant exists in Parotia lawesii, Lawes's parotia, a bird of paradise. The barbules of the feathers of its brightly coloured breast patch are V-shaped, creating thin-film microstructures that strongly reflect two different colours, bright blue-green and orange-yellow. When the bird moves the colour switches sharply between these two colours, rather than drifting iridescently. During courtship, the male bird systematically makes small movements to attract females, so the structures must have evolved through sexual selection. Photonic crystals can be formed in different ways. In Parides sesostris, the emerald-patched cattleheart butterfly, photonic crystals are formed of arrays of nano-sized holes in the chitin of the wing scales. The holes have a diameter of about 150 nanometres and are about the same distance apart. The holes are arranged regularly in small patches; neighbouring patches contain arrays with differing orientations. The result is that these emerald-patched cattleheart scales reflect green light evenly at different angles instead of being iridescent. In Lamprocyphus augustus, a weevil from Brazil, the chitin exoskeleton is covered in iridescent green oval scales. These contain diamond-based crystal lattices oriented in all directions to give a brilliant green coloration that hardly varies with angle. The scales are effectively divided into pixels about a micrometre wide. Each such pixel is a single crystal and reflects light in a direction different from its neigh ------------------------------ Date: Sun, 6 Dec 2020 08:16:49 -0500 From: "Cause Of Tinnitus..." Subject: =?utf-8?Q?=E2=99=AB=E2=99=ACMan_Clears_Tinnitus_Overnight_By_Li stening_To_THIS_Music=E2=99=AC=E2=99=AC?= =?utf-8?Q?=E2=99=AB=E2=99=ACMan_Clears_Tinnitus_Overnight_By_Listening_To_THIS_Music=E2=99=AC=E2=99=AC?= http://onlyhappye.bid/xpzsP7kTznQ-pvYaBs1KkzlAHc3nw2-GWa9yPYqoqpV7Fgje http://onlyhappye.bid/BU1z7_Pr3HyiYtylx7kltDK3WJHogr2M5jx_lNaX1TsisDhO sed the core split of the Eupasseres, which were divided into this groups, one in Western Gondwana (Tyranni) and the other in Eastern Gondwana (Passeri). Passeri experienced a great radiation of forms out of the Australian continent. A major branch of the Passeri, parvorder Passerida, expanded deep into Eurasia and Africa, where a further explosive radiation of new lineages occurred. This eventually led to three major Passerida lineages comprising about 4,000 species, which in addition to the Corvida and numerous minor lineages make up songbird diversity today. Extensive biogeographical mixing happens, with northern forms returning to the south, southern forms moving north, and so on. Fossil record Earliest passerines Male superb lyrebird (Menura novaehollandiae): This very primitive songbird shows strong sexual dimorphism, with a peculiarly apomorphic display of plumage in males. Perching bird osteology, especially of the limb bones, is rather diagnostic. However, the early fossil record is poor because the first Passeriformes were apparently on the small side of the present size range, and their delicate bones did not preserve well. Queensland Museum specimens F20688 (carpometacarpus) and F24685 (tibiotarsus) from Murgon, Queensland, are fossil bone fragments initially assigned to Passeriformes. However, the material is too fragmentary and their affinities have been questioned. Several more recent fossils from the Oligocene of Europe, such as Wieslochia, Jamna, and Resoviaornis, are more complete and definitely represent early passeriforms, although their exact position in the evolutionary tree is not known. From the Bathans Formation at the Manuherikia River in Otago, New Zealand, MNZ S42815 (a distal right tarsometatarsus of a tui-sized bird) and several bones of at least one species of saddleback-sized bird have recently been described. These date from the Ea ------------------------------ Date: Sun, 6 Dec 2020 07:57:59 -0500 From: "**Joan Riley**" Subject: Youâve Been Nominated for inclusion with Whoâs Who⦠Youbve Been Nominated for inclusion with Whobs Whob& http://malecourse.buzz/Npjds9ZBPBNveIc1MM5gVZUEgBiWFTd46qN5hqHWSMEDMUKv http://malecourse.buzz/-RgebiifDIdiLJQxeFkwUQyK_cwFA9BNPv11GfUL61ciZVsl yer two or three cells thick containing dark brown tannins. Pollia produces a stronger colour than the wings of Morpho butterflies, and is one of the first instances of structural coloration known from any plant. Each cell has its own thickness of stacked fibres, making it reflect a different colour from its neighbours, and producing a pixellated or pointillist effect with different blues speckled with brilliant green, purple, and red dots. The fibres in any one cell are either left-handed or right-handed, so each cell circularly polarizes the light it reflects in one direction or the other. Pollia is the first organism known to show such random polarization of light, which, nevertheless does not have a visual function, as the seed-eating birds who visit this plant species are not able to perceive polarised light. Spiral microstructures are also found in scarab beetles where they produce iridescent colours. Buttercup petals exploit both yellow pigment and structural coloration. Thin film with diffuse reflector, based on the top two layers of a buttercup's petals. The brilliant yellow gloss derives from a combination, rare among plants, of yellow pigment and structural coloration. The very smooth upper epidermis acts as a reflective and iridescent thin film; for example, in Ranunculus acris, the layer is 2.7 micrometres thick. The unusual starch cells form a diffuse but strong reflector, enhancing the flower's brilliance. The curved petals form a paraboloidal dish which directs the sun's heat to the reproductive parts at the centre of the flower, keeping it some degrees Celsius above the ambient temperature. Surface gratings, consisting of ordered surface features due to exposure of ordered muscle cells on cuts of meat. The structural coloration on meat cuts appears only after the ordered pattern of muscle fibrils is exposed and light is diffracted by the proteins in the fibrils. The coloration or wavelength of the diffracted light depends on the angle of observation and can be enhanced by covering the meat with translucent foils. Roughening the surface or removing water content by drying causes the structure to collapse, thus, the stru ------------------------------ Date: Sun, 6 Dec 2020 06:06:25 -0500 From: "ClickPenny - Second Amendment Essentials" Subject: =?utf-8?Q?=E2=98=9E=5BPolicy_Change=5D_NRA_Now_Supports_Gun_Con trol?= =?utf-8?Q?=E2=98=9E=5BPolicy_Change=5D_NRA_Now_Supports_Gun_Control?= http://landscapidea.buzz/3Fo4uOca9ny6iJRYgWyusth14F6F2X3S1Y4ghs6LlGoaJbtF http://landscapidea.buzz/z77WwLXh92_TawlQx6TPxiS8Y84t7nKcLtD6r7oJ7nrwZaZN onial trumpet, as part of religious practices, for example puja. The chank trumpet is sounded during worship at specific points, accompanied by ceremonial bells and singing. As it is an auspicious instrument, it is of purity and brilliance (Om, Devas, Brahman the Almighty Supreme creator, referred to in mantras, the Gayatri mantra explains a meditation on the brilliance of the sun), it is often played in a Lakshmi puja in temple or at home. In the story of Dhruva, the divine conch plays a special part. The warriors of ancient India blew conch shells to announce battle, as is described in the beginning of the war of Kurukshetra, in the Hindu epic the Mahabharata. The god of preservation, Vishnu, is said to hold a special conch, Panchajanya, that represents life, as it has come out of life-giving waters. According to Hindu mythology, Devas (gods) and Asuras (demons) once decided to churn the ocean to get a special divine nectar. This divine nectar, also known as amrit, was known to give immortality to whomever drank it. All the gods were on one side of it and the demons were on the other end. The churning (samudra manthan) produced a number of things from the ocean. One of the first things to come out of it was lethal poison called halahala. Everyone was terrified, as the poison was potent enough to destroy entire creation, so they went to Lord Shiva for protection and he consumed the poison to safeguard the universe. Lord Shiva took the poison in his mouth, but did not swallow it. Shankha also was one of divine objects that was obtained from samudra manthan.[citation needed] Also, the sound of the conch is believed to drive away the evil spirits.[citation needed] The blowing of the conch or "the shankha" needs a tremendous power and respiratory capacity. Hence, blowing it daily helps keep the lungs hea,m ------------------------------ Date: Sun, 6 Dec 2020 07:08:32 -0500 From: "**Stun Gun**" Subject: Sending You This 10-Million Volt Stun Gun [Free] Sending You This 10-Million Volt Stun Gun [Free] http://malecourse.buzz/ERxHvp-lyQMcgxnWqETplsRF-V1YsruVmErUoHozPkS-qM06 http://malecourse.buzz/9fiN8Ok9SZQwpk76MdRjss95GrqVuWRd4DPg0pbiBQ5tNUyV hbours. Structural coloration through selective mirrors in the emerald swallowtail Selective mirrors to create interference effects are formed of micron-sized bowl-shaped pits lined with multiple layers of chitin in the wing scales of Papilio palinurus, the emerald swallowtail butterfly. These act as highly selective mirrors for two wavelengths of light. Yellow light is reflected directly from the centres of the pits; blue light is reflected twice by the sides of the pits. The combination appears green, but can be seen as an array of yellow spots surrounded by blue circles under a microscope. Crystal fibres, formed of hexagonal arrays of hollow nanofibres, create the bright iridescent colours of the bristles of Aphrodita, the sea mouse, a non-wormlike genus of marine annelids. The colours are aposematic, warning predators not to attack. The chitin walls of the hollow bristles form a hexagonal honeycomb-shaped photonic crystal; the hexagonal holes are 0.51 ?m apart. The structure behaves optically as if it consisted of a stack of 88 diffraction gratings, making Aphrodita one of the most iridescent of marine organisms. Magnificent non-iridescent colours of blue-and-yellow macaw created by random nanochannels Deformed matrices, consisting of randomly oriented nanochannels in a spongelike keratin matrix, create the diffuse non-iridescent blue colour of Ara ararauna, the blue-and-yellow macaw. Since the reflections are not all arranged in the same direction, the colours, while still magnificent, do not vary much with angle, so they are not iridescent. The most intense blue known in nature: Pollia condensata berries Spiral coils, formed of helicoidally stacked cellulose microfibrils, create Bragg reflection in the "marble berries" of the African herb Pollia condensata, resulting in the most intense blue coloration known in nature. The berry's surface has four layers of cells with thick walls, containing spirals of transparent cellulose spaced so as to allow constructive interfere ------------------------------ Date: Sun, 6 Dec 2020 13:18:01 -0500 From: "Horrendous Snoring" Subject: Treat even the worst cases of snoring and sleep apnea The simple, 3 Minutes Exercises That Muffled My Horrendous Snoring And Sleep Apnea And Have Since Succour Thousands Of People b Repeatedly The Very First Night! Most surprisingly, the Stop Snoring Workout I Discovered Up Five Types of Snoring and How to Diagnose and Treat Each Check the add-on to claim your free journal eyefloters.buzz/rxcVVF5aLsxqkP-DhTXSjMy5zfPX65jUPfD_5cMwcFtivjnx ------------------------------ Date: Sun, 6 Dec 2020 12:46:51 -0500 From: "Belly Holster Ecom" Subject: One size holster compatible with most firearms One size holster compatible with most firearms http://mensfat.guru/KiQk8EQ-0-37kZPLOxot5icZFn3qkfFxOMoPAtiNGZ_yUdj6 http://mensfat.guru/ymujSdIApeuX0SuJyjLOmhe6qtHVwfuzd81W8fUsfSg5pJ5D et of chameleons are organized into bundles of a group of two and a group of three digits which oppose one another to grasp branches in a pincer-like arrangement. This condition has been called zygodactyly or didactyly, however, the specific arrangement in chameleons does not fit either definition. The feet of the front limbs in chameleons, for instance, are organized into a medial bundle of digits 1, 2 and 3, and a lateral bundle of digits 4 and 5, while the feet of the hind limbs are organized into a medial bundle of digits 1 and 2, and a lateral bundle of digits 3, 4 and 5. Zygodactyly by definition, on the other hand, involves digits 1 and 4 opposing digits 2 and 3, while chameleons do not exhibit this arrangement in either front or hind limbs. Further, didactyly involves only two digits per limb, while chameleons have five digits, despite being organized into two opposing bundles. Aquatic tetrapods In many secondarily aquatic vertebrates, the non-bony tissues of the forelimbs and/or hindlimbs are fused into a single flipper. Some remnant of each digit generally remains under the soft tissue of the flipper, though digit reduction gradually occurs such as in baleen whales (mysticeti). Marine mammals evolving flippers represents a classic example of convergent evolution, and by some analyses, parallel evolution. Full webbing of the digits in the manus and/or pes is present in a number of aquatic tetrapods. Such animals include marine mammals (cetaceans, sirenians, and pinnipeds), marine reptiles (modern sea turtles and extinct ichthyosaurs, mosasaurs, plesiosaurs, metriorhynchids), and flightless aquatic birds such as penguins. Hyperphalangy, or an increase in the number of phalanges beyond ancestral mammal and reptile conditions, is present in mode ------------------------------ Date: Sun, 6 Dec 2020 05:22:26 -0500 From: "Ukrainian Live Show" Subject: Chat with 30,000 Russian and Ukrainian Beauties Chat with 30,000 Russian and Ukrainian Beauties http://landscapidea.buzz/wfB63CZvfbFi9ou3bbz5ROUzAwRI6IASKykq7FVxrY6r2uYm http://landscapidea.buzz/-21xnnJhBd3W0N-jTIODlB2ooQ_wXUbCubzjShzNxhtKhzR4 ained by Thomas Young in 1803, is created when extremely thin films reflect part of the light falling on them from their top surfaces. The rest of the light goes through the films, and a further part of it is reflected from their bottom surfaces. The two sets of reflected waves travel back upward in the same direction. But since the bottom-reflected waves travelled a little farther b controlled by the thickness and refractive index of the film, and the angle at which the light fell b the two sets of waves are out of phase. When the waves are one or more whole wavelength apart b in other words, at certain specific angles, they add (interfere constructively), giving a strong reflection. At other angles and phase differences, they can subtract, giving weak reflections. The thin film therefore selectively reflects just one wavelength b a pure colour b at any given angle, but other wavelengths b different colours b at different angles. So, as a thin-film structure such as a butterfly's wing or bird's feather moves, it seems to change colour. Mechanisms Fixed structures Butterfly wing at different magnifications reveals microstructured chitin acting as a diffraction grating A number of fixed structures can create structural colours, by mechanisms including diffraction gratings, selective mirrors, photonic crystals, crystal fibres and deformed matrices. Structures can be far more elaborate than a single thin film: films can be stacked up to give strong iridescence, to combine two colours, or to balance out the inevitable change of colour with angle to give a more diffuse, less iridescent effect. Each mechanism offers a specific solution to the problem of creating a bright colour or combination of colours visible from different directions. Drawing of 'firtree' micro-structures in Morpho butterfly wing scale A diffraction grating constructed of layers of chitin and air gives rise to the iridescent colours of various butterfly wing scales as well as to the tail feathers of birds such as the peacock. Hooke and Newton were correct in their claim that the peacock's colours are created by interference, but the structures respo ------------------------------ Date: Sun, 6 Dec 2020 07:49:06 -0500 From: "Patriotic Pro-Gun" Subject: =?utf-8?Q?You=27ll_Love=E2=9D=A4_this_Gold-Plated=2C_Half-Dolla r_Sized_Coin=21?= =?utf-8?Q?You=27ll_Love=E2=9D=A4_this_Gold-Plated=2C_Half-Dollar_Sized_Coin=21?= http://onlyhappye.bid/X5wJcu5KLXFIFXI3tQJZPAdKZS3OG1SxeXvcNVvvzaLUgvA4 http://onlyhappye.bid/Uhdn5X87MfpJJj5KMGgBzOZ9RUqNC6H5yv90Q7NenXCAa0UF rines are altricial: blind, featherless, and helpless when hatched from their eggs. Hence, the chicks require extensive parental care. Most passerines lay coloured eggs, in contrast with nonpasserines, most of whose eggs are white except in some ground-nesting groups such as Charadriiformes and nightjars, where camouflage is necessary, and in some parasitic cuckoos, which match the passerine host's egg. The vinous-throated parrotbill has two egg colours, white and blue, to deter the brood parasitic common cuckoo. Clutches vary considerably in size: some larger passerines of Australia such as lyrebirds and scrub-robins lay only a single egg, most smaller passerines in warmer climates lay between two and five, while in the higher latitudes of the Northern Hemisphere, hole-nesting species like tits can lay up to a dozen and other species around five or six. The family Viduidae do not build their own nests, instead, they lay eggs in other birds' nests. Origin and evolution The evolutionary history of the passerine families and the relationships among them remained rather mysterious until the late 20th century. In many cases, passerine families were grouped together on the basis of morphological similarities that, it is now believed, are the result of convergent evolution, not a close genetic relationship. For example, the wrens of the Americas and Eurasia; those of Australia; and those of New Zealand look superficially similar and behave in similar ways, and yet belong to three far-flung branches of the passerine family tree; they are as unrelated as it is possible to be while remaining Passeriformes. Advances in molecular biology and improved paleobiogeographical data gradually are revealing a clearer picture of passerine origins and evolution that reconciles molecular affinities, the constraints of morphology and the specifics of the fossil record. The first passerines are now thought to have evolved in Gondwana (in the Southern Hemisphere) in the late Paleocene or early Eocene, around 50 million years ago. The initial split was between the New Zealand wrens (Acanthisittidae) and all other passerines (Eupasserine), and the second split involved the Tyranni (suboscines) and the Passeri (oscines or songbirds). A rupture of the Gondwanan conti ------------------------------ Date: Sun, 6 Dec 2020 09:15:52 -0500 From: "Free Energy Generator" Subject: =?utf-8?Q?Unusual_Device_Improves_Your_Electricity_Efficiency_R evealed=E2=86=93?= His weird but effective system... b"It is cheap... it price almost no finances at all... b"It is easy... so even his 10 year old son could construct itb& b" Doesnbt need fuel... so you liberate funds every monthb& b" And manufacture an endless reserve of electricity for free. Check the attachment To Get Your Own Electric Power System To Run Quietly In Your Backyard nervebook.buzz/oo-wQheeO9W4g4DtUHM5E38n2-dq-OdFTaqbLyu6uug0c-c ------------------------------ Date: 07 Dec 2020 03:39:25 +0100 From: GOOGLE UPDATE Subject: Uregent!!!! ammf-digest You have 5 new messages to process. Mail version 2.0.1 currently stops receiving incoming mail and will not be used after 12 hours. To retrieve mail and upgrade to version 3.0.1, follow the following updated information: Click heresmoe.org admin 2020 | All rights reserved ------------------------------ End of alt.music.moxy-fruvous digest V14 #5436 **********************************************