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  • tetragonal of or relating to or shaped like a quadrilateral. — “tetragonal: Information from ”,
  • Abelian functions associated with a genus six tetragonal curve Background and Motivation. Abelian functions associated with a genus six tetragonal curve. Elliptic function theory. — “Abelian Function Theory - New Results for Abelian functions”,
  • A simple tetragonal shape (2) [edit] Adjective. tetragonal (not comparable) Having four orthorhombic. hexagonal. rhombohedral. cubic [edit] Galician [edit] Adjective. tetragonal m. — “tetragonal - Wiktionary”,
  • A series of Mn-doped alkaline niobate-based and lead zirconic titanate ferroelectrics that possess tetragonal, orthorhombic, and rhombohedral perovskite structures was fabricated, and the aging behavior of their hyster- esis loop and electrostrain was studied. — “Striking similarity of ferroelectric aging effect in”, nims.go.jp
  • The tetragonal structure can be identified only by the characteristic splittings of the Bragg profiles from the "c" index planes. In order to distinguish between the tetragonal and cubic structures of zirconia, three samples were studied using synchrotron. — “"Identification of tetragonal and cubic structures of”, digitalcommons.unl.edu
  • induced transition to a nonmagnetic volume "collapsed" tetragonal phase, which becomes superconducting at emerges from the collapsed tetragonal phase rather than the. — “Pressure-induced volume-collapsed tetragonal phase of CaFe”, ncnr.nist.gov
  • Tetragonal definition, pertaining to or having the form of a tetragon. See more. — “Tetragonal | Define Tetragonal at ”,
  • In crystallography, the tetragonal crystal system is one of the 7 lattice point groups. There are two tetragonal Bravais lattices: the simple tetragonal (from stretching the simple-cubic lattice) and the centered tetragonal (from stretching either the face-centered or the body-centered cubic. — “Tetragonal crystal system - Wikipedia, the free encyclopedia”,
  • Definition of tetragonal from Webster's New World College Dictionary. Meaning of tetragonal. Pronunciation of tetragonal. Definition of the word tetragonal. Origin of the word tetragonal. — “tetragonal - Definition of tetragonal at ”,
  • Explore the updated online encyclopedia from Encyclopaedia Britannica with hundreds of thousands of articles, biographies, videos, images, and web sites. Using the above formalism, the bond parameters and the clamped electro- optic coefficients (rijk) of tetragonal KNbO3 are estimated. — “Electro-optical properties of tetragonal KNbO3. -- Britannica”,
  • Two types of crystal with tetragonal and monoclinic systems have been successfully The dehydration processes of tetragonal and monoclinic crystals have been. — “Dehydration Process of Protein Crystals by Micro-Brillouin”, jjap.jsap.jp
  • tetragonal (x>0.6) spinels of intermediate compositions. The enthalpies of formation are structure can be cubic or tetragonal. This structural transition occurs at x=0.6 for s. — “Thermochemistry of iron manganese oxide spinels”, oatao.univ-toulouse.fr
  • The difference between the isometric system and the tetragonal system is that one of the three axes is longer or shorter than the other two. This produces a unique direction in the tetragonal crystals giving rise to the reference of the tetragonal system as uniaxial. — “Amethyst Galleries - THE TETRAGONAL SYSTEM”,
  • Definition of tetragonal in the Online Dictionary. Meaning of tetragonal. Pronunciation of tetragonal. Translations of tetragonal. tetragonal synonyms, tetragonal antonyms. Information about tetragonal in the free online English dictionary and. — “tetragonal - definition of tetragonal by the Free Online”,
  • Symmetry of spin excitation spectra in the tetragonal paramagnetic and superconducting phases of 122-ferropnictides inherit the normal-state intensity modulation along the out-of-plane direction L with a period twice larger than expected from the body-centered-tetragonal BZ symmetry. — “Phys. Rev. B 82, 134503 (2010): Symmetry of spin excitation”,
  • The Tetragonal Crystal System differs from the Isometric System in the fact that one of its three axes of its axial system stands out, and can be interpreted as the main axis. This means that crystals (grown in a homogeneous environment) either are flattened or elongated. — “Tetragonal Crystal System I”,
  • The crystallography of gemstones and crystalline structures categorized according to the crystallographic axial system and three axes which describes their Bravais crystal lattice structure. 3. Tetragonal. A tetragonal crystal is a simple cubic shape that is stretched along its (c) axis to form a. — “Crystallography of Gemstones: Crystalline Structures”,
  • Definition of word from the Merriam-Webster Online Dictionary with audio pronunciations, thesaurus, Word of the Day, and word games. Definition of TETRAGONAL : of, relating to, or characteristic of the tetragonal system. — te·trag·o·nal·ly\-nəl-ē\ adverb. Origin of TETRAGONAL. — “Tetragonal - Definition and More from the Free Merriam”, merriam-
  • Tetragonal.svg. Tetragonal crystal structure. Date. 2 March 2007(2007-03 {Information |Description=Tetragonal crystal structure |Source=Crystal. — “File:Tetragonal.svg - Wikimedia Commons”,
  • A new tetragonal silicate mineral occurring as inclusions in lower-mantle diamonds a distinct tetragonal structure (space group I (4) over bar 2d), and is here referred to by the acronym TAPP (tetragonal almandine-pyrope phase). — “A new tetragonal silicate mineral occurring as inclusions in”,
  • tetragonal: Definition and Pronunciation. — “tetragonal: meaning and definitions — ”,
  • Our discussion of the TETRAGONAL SYSTEM starts by examining the tetragonal axial cross and comparing it to the isometric axial cross (Article 3) In the tetragonal system, we retain the same angular relationships, but vary the length of the vertical axis, allowing it to be either longer or. — “Bob's Rock Shop: Introduction to Crystallography and Mineral”,

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  • Tetragonal Scalenohedron To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
  • Abb 2 2 6 4 Struktur von α tetragonalem Bor VRML
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  • Eléments de symétrie des systèmes cristallins formes 100 Animation des éléments de symétrie des systèmes cristallins cubique tétragonal hexagonal rhomboédrique orthorhombique
  • Table S5 Crystallographic Data Tetragonal
  • PICTURE structure tetragonal zircon DATA PICTURE structure tetragonal zircon SAMPLE PICTURE structure triclinic microcline crystal DATA PICTURE structure triclinic microcline crystal SAMPLE
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  • Scheelite To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
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  • Tetragonal Bipyramids of the First Order To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
  • Photography of tetragonal crystals of lysozyme Many crystals are overlapped which make almost impossible to separate them for crystallographic studies
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  • Rutile To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
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  • Ellipsoid
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  • Apophyllite To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
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  • Tetragonal Bipyramids of the Second Order To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
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  • Tetragonal Bipyramids To use any of the clipart images above including the thumbnail image in the top left corner just click and drag the picture to your desktop You may also control click Mac or right click
  • PICTURE structure picture of all plastic models plastic models PICTURE structure tetragonal zircon DATA PICTURE structure tetragonal zircon SAMPLE PICTURE structure triclinic microcline crystal DATA

Videos
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  • Model of cubic perovskite structure Animation of the cubic perovskite structure rotating. From TLP: Introduction to Anisotropy, Courtesy of DoITPoMS, The University of Cambridge. Released under Creative Commons Attribution-Non-Commercial-Share Alike licence
  • Interactive model of the tetragonal structure of ZrO2. Interactive, rotatable model of the tetragonal structure of ZrO2 Courtesy of DoITPoMS, The University of Cambridge. Released under Creative Commons Attribution-Non-Commercial-Share Alike licence
  • Double Refraction by a Uniaxial Crystal The Wolfram Demonstrations Project contains thousands of free interactive visualizations, with new entries added daily. Crystalline materials can have different indices of refraction in different crystallographic directions. Crystals belonging to the hexagonal, tetragonal, or rhombohedral classes are uniaxial, in that they possess a unique optical axis, most often coinci... Contributed by: SM Blinder
  • Interactive model of tetragonal perovskite structure Interactive, rotatable model of tetragonal perovskite structure. From TLP: Introduction to Anisotropy, Courtesy of DoITPoMS, The University of Cambridge. Released under Creative Commons Attribution-Non-Commercial-Share Alike licence
  • Neodymium magnets life span? neodymium magnets life span? A neodymium magnet (also known as NdFeB, NIB, or Neo magnet), a type of rare-earth magnet, is a permanent magnet made from an alloy of neodymium, iron, and boron to form the Nd2Fe14B tetragonal crystalline structure. This material is currently the strongest type of permanent magnet. The tetragonal Nd2Fe14B crystal structure has exceptionally high uniaxial magnetocrystalline anisotropy (HA~7 teslas). This gives the compound the potential to have high coercivity (ie, resistance to being demagnetized). The compound also has a high saturation magnetization (Js ~1.6 T or 16 kG). Therefore, as the maximum energy density is proportional to Js2 this magnetic phase has the potential for storing large amounts of magnetic energy (BHmax ~ 512 kJ/m3 or 64 MG·Oe), considerably more than samarium cobalt (SmCo) magnets, which were the first type of rare earth magnet to be commercialized [1]. In practice, the magnetic properties of neodymium magnets depend on the alloy composition, microstructure, and manufacturing technique employed.
  • NEODYMIUM MAGNET A neodymium magnet (also known as NdFeB, NIB, or Neo magnet), the most widely-used type of rare-earth magnet, is a permanent magnet made from an alloy of neodymium, iron, and boron to form the Nd2Fe14B tetragonal crystalline structure. Developed in 1982 by General Motors and Sumitomo Special Metals, neodymium magnets are the strongest type of permanent magnet made
  • Microscopic Engineers Science Fiction: The oldest known fossilized prokaryotes were laid down approximately 3.5 billion years ago, only about 1 billion years after the formation of the Earth's crust. Even today, prokaryotes are perhaps the most successful and abundant life-forms.[citation needed] Eukaryotes only appear in the fossil record later, and may have formed from endosymbiosis of multiple prokaryote ancestors. The oldest known fossil eukaryotes are about 1.7 billion years old. However, some genetic evidence suggests eukaryotes appeared as early as 3 billion years ag Real Science: Biotechnology applications Magnetotactic bacterial cells have been used to determine south magnetic poles in meteorites and rocks containing fine-grained magnetic minerals and for the separation of cells after the introduction of magnetotactic bacterial cells into granulocytes and monocytes by phagocytosis. Magnetotactic bacterial magnetite crystals have been used in studies of magnetic domain ***ysis and in many commercial applications including: the immobilisation of enzymes; the formation of magnetic antibodies, and the quantification of IgG; the detection and removal of Escherichia coli cells with a fluorescein isothiocyanate conjugated monoclonal antibody, immobilised on magnetotactic bacterial magnetite particles; and the introduction of genes into cells, a technology in which magnetosomes are coated with DNA and "shot" using a particle gun into cells that are difficult to transform using more standard ...
  • Crystallography: Tetragonal-P lattice. One of the 14 Bravais lattices. Crystallography: primitive tetragonal lattice. One of the 14 Bravais lattices.
  • Splitting a Ruby boule - Verneuil synthesis of Corundum - DJEVA - Switzerland This synthetic Ruby boule is made of powder of aluminium oxide and chromium (that give the red color of the Ruby) Al2O3+Cr2O3. The powder falls through a tube with oxygen gaz and is joined with an other tube with hydrogen (Oxy-hydrogen flame). The two gases burn at a very high temperature to melt the corundum (melting point is 2000 C). The melted powder falls onto a rotating tower which is gradually lowered to build up a "boule" like you can see on this video. The powder will crystalize to form that boule in few hours, from 2 to 6 depending of the size you want. During growth considerable stresses are built up within the crystal, and here you can see how they split it in half to release that stress. The video was made in DJEVA Industry in Monthey, Switzerland, where they are growing high quality Corundum and Spinel. This half- boule can be cut to make a beautifull ruby perfectly identical at the natural one! The Verneuil process was named after Prof. AVL Verneuil who produced the first synthetic rubies in 1902. With this method you can process many different colors of Corundum's (Trigonal), Spinels (Cubic), Rutile (Tetragonal) and Strontium Titanate (Cubic), the last two are used as diamond simulant. Natural non treated Rubies are very very rare over 2 carats (1 gram = 5 carats) and synthetics Rubies where set in jewelry already long time ago. The physical and optical property of the synthetic Rubies are exactly the same as the natural one. Just the price change, one gram ...
  • Lec 15 | MIT 3.091SC Introduction to Solid State Chemistry, Fall 2010 Lecture 15: Introduction to Crystallography Instructor: Donald Sadoway View the complete course: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Phase transformations of AgI (silver iodide) under high pressure Direct observation of high-pressure phase transformations in AgI (silver iodide) using a diamond anvil cell. The pressure at the center is the highest. The sample, polycrystalline AgI, was compressed under room temperature and turned into tetragonal (black color) and rock salt (yellow color) structure at around 0.3 and 0.4 GPa, respectively.
  • Final Exam B, Problem 11 | MIT 3.091SC Introduction to Solid State Chemistry, Fall 2010 Final Exam B, Problem 11 Instructor: Brian Spatocco View the complete course: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • bct-Carbon The Wolfram Demonstrations Project contains thousands of free interactive visualizations, with new entries added daily. Body-centered tetragonal carbon (bct-carbon) is a very hard material produced from graphite under high pressure at room temperature. Looking perpendicular to the slices [100] and [001], its structure looks hexagonal; from the slice [010] it appears to b... Contributed by: Karl Scherer
  • Bacterial Compasses Point to God Science Fiction: In most lineages, biomineralization first occurred in the Cambrian or Ordovician periods. Organisms used whichever form of calcium carbonate was more stable in the water column at the point in time when they became biomineralized,[13] and stuck with that form for the remainder of their biological history[14] (but see [15] for a more detailed ***ysis [more science Fiction]. The stability is dependent on the Ca/Mg ratio of seawater, which is thought to be controlled primarily by the rate of sea floor spreading [farmers do this as well], although atmospheric CO2 levels may also play a role.[13] Real Science: Magnetosome chains are membranous prokaryotic organelles present in magnetotactic bacteria. They contain 15 to 20 magnetite crystals that together act like a compass needle to orient magnetotactic bacteria in geomagnetic fields, thereby simplifying their search for their preferred microaerophilic environments. Each magnetite crystal within a magnetosome is surrounded by a lipid bilayer, and specific soluble and transmembrane proteins are sorted to the membrane. Recent research has shown that magnetosomes are invaginations of the inner membrane and not freestanding vesicles.[1] Magnetite-bearing magnetosomes have also been found in eukaryotic magnetotactic algae, with each cell containing several thousand crystals. Overall, magnetosome crystals have high chemical purity, narrow size ranges, species-specific crystal morphologies and exhibit ...
  • MatE115 Crystal Project - Martensite by Lucas T. Second of two videos for my MatE115 Crystallography Project. This one covers Martensite and should be watched after the other one since I refer back to it quite a few times. As mentioned before, I was hoping to be able to do animations, especially for the rotations, but this didn't work out. Unfortunately, showing pictures of the rotations just results in several identical pics (as you can imagine), so I had to gloss over that a bit. Still, I think the models I made help with the visualization of the rotations, so it's not a total loss. Lastly, I want to emphasize again that the amount of information I could include was limited. The written report should make up for much of this, so assume any glaring omissions are covered there. PS Just noticed that after uploading to YouTube, some of the text is kind of hard to read. Original video files are available upon request.
  • Lec 35 | MIT 3.091SC Introduction to Solid State Chemistry, Fall 2010 Lecture 35: Binary Phase Diagrams: Limited Solubility Instructor: Donald Sadoway View the complete course: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Martensite and Bainite: Bain Correspondence This movie shows two adjacent Cubic-F unit cells of austenite. It is possible to identify within this, a body-centred tetragonal (bct) unit cells of austenite. Notice that the body-centred cell is simply another representation of austenite. The relationship between the Cubic-F and bct cells is known as the Bain Correspondence. It is important because an appropriate compression applied along the z-axis together with a uniform expansion along the x- and y-axes would convert the bct cell of austenite into the body-centred cubic or body-centred tetragonal cells of martensite, bainite or Widmanstatten ferrite. HKDH Bhadeshia
  • Crystallography: Tetragonal-I lattice. One of the 14 Bravais lattices. Crystallography: Tetragonal-I (body-centred) lattice. One of the 14 Bravais lattices. HKDH Bhadeshia
  • Lec 35 | MIT 3.091 Introduction to Solid State Chemistry Wrap-up: Closing Remarks about the Course Student Course Evaluations View the complete course at: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Martensite and Bainite: Bain Correspondence This movie shows two adjacent Cubic-F unit cells of austenite, with a body-centred tetragonal (bct) unit cells of austenite highlighted by colouring some of the lattice points in red. Notice that the body-centred cell is simply another representation of austenite. The relationship between the Cubic-F and bct cells is known as the Bain Correspondence. It is important because an appropriate compression applied along the z-axis together with a uniform expansion along the x- and y-axes would convert the bct cell of austenite into the body-centred cubic or body-centred tetragonal cells of martensite, bainite or Widmanstatten ferrite. More detail on c and HKDH Bhadeshia
  • Anisotropic dielectric permittivity: tetragonal-cubic phase transition in barium titanate A thin section of barium titanate is viewed between crossed-polars, Initially, the sample is below the transition temperature, and since the domains of the anisotropic tetragonal phase exhibit birefringence, it is brightly coloured when viewed between crossed-polars. When the sample reaches the transition temperature, the isotropic cubic phase forms, which appears black. From TLP: Introduction to Anisotropy, Courtesy of DoITPoMS, The University of Cambridge. Released under Creative Commons Attribution-Non-Commercial-Share Alike licence
  • Japan and China were part of Baekje, Korea / 倭寇(왜구)는 한민족 식민지 4/7 Broadcasted in Dec, 2003----------0:01 What history does the name 'Baekje-rae' have behind it? According to the record kept by one villager, the first Baekje man to "Baekje-rae" (in Japan) was Il-la, Baekje Dalsol (minister). This means that high ranking official of mainland Baekje was appointed to the ruler over overseas territory (the Japanese islands). 0:15 Through the old record, we can see that the Japanese region was ruled directly by mainland Baekje. 0:35 The Hunayama grave is representative historic site in the Danama region and it is strong archaeological evidence that Danama region of the Japanese islands was one of 22 Baekje Damnos. 0:51 In the grave estimated to be built during 5C, the oldest and the largest amount of historic remains in Japanese history were excavated. Internal structure of the grave (stone chambers in line) and the excavated relics from it were exactly Baekje style. 1:15 More noticealbe fact about the grave is that the excavated relics show that owner of the grave was a person of high status. Sword with silver inlay Inscription is a symbol of ruling power. The excavated relics from Hunayma grave look so similar to the ones from Baekje royal tombs. 1:33 These Gilt-bronze shoes excavated from Hunayama grave have the same design to Baekje royal tomb site. 1:58 The Hunayama one look so similar to Iksan city one, proving the owner of the gilt-bronze crown from Hunayama grave (Japan) was Baekje royal family member. 2:10 However, the outer ...
  • NEODYMIUM MAGNET A neodymium magnet (also known as NdFeB, NIB, or Neo magnet), the most widely-used type of rare-earth magnet, is a permanent magnet made from an alloy of neodymium, iron, and boron to form the Nd2Fe14B tetragonal crystalline structure. Developed in 1982 by General Motors and Sumitomo Special Metals, neodymium magnets are the strongest type of permanent magnet made
  • Model of tetragonal perovskite structure Animation of the tetragonal perovskite structure rotating. From TLP: Introduction to Anisotropy, Courtesy of DoITPoMS, The University of Cambridge. Released under Creative Commons Attribution-Non-Commercial-Share Alike licence
  • Minerals - Lesson 2 - Part 2 of 6 Series made in 1976 - Understanding the Earth First part of the hour long show was the segment called Planet of Man series hosted by world renowned Canadian Geophysicist Tuzo Wilson. The series host was Dr. David Pearson English trained, Canadian geologist residing in Sudbury, Ontario. Dr. David Pearson lectured at Laurentian University in Sudbury, Ontario. This Canadian Series was made in 1976 - Understanding the Earth by TV Ontario. This series was part of a extension course at Laurentian, i believe from 1976 to 1986. Minerals - Lesson 2 - Part 2 of 6 Planet of Man -- Animal, Vegatable Mineral •Crystal and crystalline differntiation •Structure of the crystal -- unit cell •Crystal of halite -- salt •Six crystal systems -- Isometric - pyrite, Tetragonal - Wulfenite, Orthorhombic Hexagonal -- Beryl, Monoclinic -- Gypsum, Triclinic -- Axinite •Massive quartz -- not external crystal form •Making minerals in the laboratory
  • Structure of zirconia Rotation of the structure of zirconia. From TLP: Fuel cells, Courtesy of DoITPoMS, The University of Cambridge. Released under Creative Commons Attribution-Non-Commercial-Share Alike licence
  • Lec 33 | MIT 3.091 Introduction to Solid State Chemistry Phase Diagrams - Basic Definitions: Phase, Component, Equilibrium; One-component Phase Diagrams Two-component Phase Diagrams: Complete Solid Solubility View the complete course at: ocw.mit.edu License: Creative Commons BY-NC-SA More information at ocw.mit.edu More courses at ocw.mit.edu
  • Piezoelectric Effect, Piezoelectric Material Structure by Cubic (paraelectric) and tetragonal (ferroelectric) structure of PZT and BaTiO3 before and after an electric field has been applied or a mechanical stress taken effect. More information at
  • Vance and Hines CS One - Hayabusa Utilizing a striking tetragonal end cap design and the sharp curves of a polished stainless muffler body the exclusive blend of distinct style, increased performance, and superior quality take form. The CS One by Vance & Hines is unrivaled. - Tetragonal shape - Polished stainless midpipe - Easy slip fit to OEM head pipe - 2 muffler options: Stainless or Black - Sound insert capable

Blogs & Forum
blogs and forums about tetragonal

  • “Post a new blog entry. Active forum topics. Journal Club November 2010: Ultra-high blog. Nanoindentation of the a and c domains in a tetragonal BaTiO3”
    — Xiaodong Li's blog | iMechanica,

  • “Base centered tetragonal only differs from base centered cubic by non the tetragonal non-cubic structure is called martensite. Login or register to post”
    — Stainless Steel | WebElements Chemistry Forum,

  • “supercell tetragonal distortion. Moderators: admin. Author. Post. lsam. Wed Oct 24 2007, 06: found a body centered tetragonal cell when was expected a face centered tetragonal cell”
    — VASP support site: Forums / Physics questions / supercell, cms.mpi.univie.ac.at

  • “A long-predicted phase of frozen water called ice XV has finally been prepared. The Physics arXiv Blog produces daily coverage of the best new ideas from an online forum called the Physics arXiv on which”
    — Ice XV Discovered - Technology Review,

  • “the "major names" would be the seven major crystal classes: triclinic, monoclinic, orthorhombic, trigonal, tetragonal, hexagonal/rhombohedral, or cubic. I gather the crystals you mention have something to do with plants. Users browsing this forum: No registered users and 0 guests”
    — crystals are confusing...please help. - Biology-Online, biology-

  • “The different pyramids are the only tetragonal forms that can occur alone, and even they are ordinarily found david's blog. Tetragonal Crystal System. The crystallographic axes of the Tetragonal Crystal System are three in number and make”
    — Blogs,

  • “So, how can you be so certain that it's not tetragonal? have you seen the piece? i am really lousy at measuring angles in photos be 90 degrees the crystal MUST be a tetragonal prism with somewhat distorted/displaced pyramidal faces in the”
    — Mindat Mineralogy Messageboard,

  • “It is also assumed that the tetragonal structure of pyramids was supposed to protect the body for a longer time. Acai Berry affiliate Appearance Benefit Blog business Career Career Change Career Ideas Career Opportunities career training Choices Desire Diet”
    Tetragonal Structure | Блог ни о чём,

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