• Title/Summary/Keyword: OMAR

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Ring of Four Almonds and the Omar Khayyam's Triangle in Islamic Art Design (이슬람 예술 디자인에서 회전하는 알몬드와 오마르 하얌의 삼각형)

  • Park, Jeanam;Park, Mingu
    • Journal for History of Mathematics
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    • v.32 no.4
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    • pp.159-173
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    • 2019
  • In this paper, we examine the brief history of the ring of four almonds regarding Mesopotamian mathematics, and present reasons why the Omar Khayyam's triangle, a special right triangle in a ring of four almonds, was essential for artisans due to its unique pattern. We presume that the ring of four almonds originated from a point symmetry figure given two concentric squares used in the proto-Sumerian Jemdet Nasr period (approximately 3000 B.C.) and a square halfway between two given concentric squares used during the time of the Old Akkadian period (2340-2200 B.C.) and the Old Babylonian age (2000-1600 B.C.). Artisans tried to create a new intricate pattern as almonds and 6-pointed stars by subdividing right triangles in the pattern of the popular altered Old Akkadian square band at the time. Therefore, artisans needed the Omar Khayyam's triangle, whose hypotenuse equals the sum of the short side and the perpendicular to the hypotenuse. We presume that artisans asked mathematicians how to construct the Omar Khayyam's triangle at a meeting between artisans and mathematicians in Isfahan. The construction of Omar Khayyam's triangle requires solving an irreducible cubic polynomial. Omar Khayyam was the first to classify equations of integer polynomials of degree up to three and then proceeded to solve all types of cubic equations by means of intersections of conic sections. Omar Khayyam's triangle gave practical meaning to the type of cubic equation $x^3+bx=cx^2+a$. The work of Omar Khayyam was completed by Descartes in the 17th century.

Reinterpretation and visualization of Omar-Khayyam's geometric solution for the cubic equation - 6 cases of the cubic equation with 4 terms - (삼차방정식에 관한 Omar Khayyām의 기하학적 해법의 재해석과 시각화 - 항이 4개인 삼차방정식의 6가지 -)

  • Kim, Hyang Sook;Kim, Mi Yeoun;Sim, Hyo Jung;Park, Myeong Eun
    • East Asian mathematical journal
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    • v.37 no.4
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    • pp.499-521
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    • 2021
  • This research is devoted to investigate Omar Khayyām's geometric solution for the cubic equation using conic sections in the Medieval Islam as a useful alternative connecting logic geometry with analytic geometry at a secondary school. We also introduce Omar Khayyām's 25 cases classification of the cubic equation with all positive coefficients. Moreover we study 6 cases with 4 terms of 25 cubic equations and in particular we reinterpret geometric methods of solving in 2015 secondary Mathematics curriculum and visualize them by means of dynamic geometry software.

Fully automated ethanolic loop synthesis of the [11C]OMAR

  • Jang, Keun Sam;Song, Ho-Chun
    • Journal of Radiopharmaceuticals and Molecular Probes
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    • v.2 no.2
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    • pp.137-142
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    • 2016
  • We have successfully synthesized of 4-cyano-1-(2,4-dichlorophenyl)-5-(4-[$^{11}C$]methoxyphenyl)-N-(piperidin-1-yl)-1H-pyrazole-3-carboxzmide ([$^{11}C$]OMAR), which has been shown a progressing candidate to human brain PET study, from fully automated loop method using ethanol as the only solvent for the entire manufacturing process. The radiochemical yield of [$^{11}C$]OMAR was observed in $4.1{\pm}0.2%$ with $4990{\pm}384Ci/mmol$ of the specific activity and total synthesis time was about 45 minutes after HPLC purification (n = 3, decay corrected) from ethanolic loop system, which was exhibited to better results compared with conventional methods. Ethanolic loop chemistry is favorable and efficient method by simplifies manufacturing procedures as well as satisfied suitable for human administration.

A Study on the Pedagogical Application of Omar Khayyam's Geometric Approaches to Cubic Equations (오마르 카얌(Omar Khayyam)이 제시한 삼차방정식의 기하학적 해법의 교육적 활용)

  • Ban, Eun Seob;Shin, Jaehong;Lew, Hee Chan
    • School Mathematics
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    • v.18 no.3
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    • pp.589-609
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    • 2016
  • In this study, researchers have modernly reinterpreted geometric solving of cubic equations presented by an arabic mathematician, Omar Khayyam in medieval age, and have considered the pedagogical significance of geometric solving of the cubic equations using two conic sections in terms of analytic geometry. These efforts allow to analyze educational application of mathematics instruction and provide useful pedagogical implications in school mathematics such as 'connecting algebra-geometry', 'induction-generalization' and 'connecting analogous problems via analogy' for the geometric approaches of cubic equations: $x^3+4x=32$, $x^3+ax=b$, $x^3=4x+32$ and $x^3=ax+b$. It could be possible to reciprocally convert between algebraic representations of cubic equations and geometric representations of conic sections, while geometrically approaching the cubic equations from a perspective of connecting algebra and geometry. Also, it could be treated how to generalize solution of cubic equation containing variables from geometric solution in which coefficients and constant terms are given under a perspective of induction-generalization. Finally, it could enable to provide students with some opportunities to adapt similar solving procedures or methods into the newly-given cubic equation with a perspective of connecting analogous problems via analogy.

PHOTOGRAPHIC AND CCD OBSERVATIONS OF THE NEARBY CLUSTERS OF GALAXIES

  • KURTANIDZE OMAR M.
    • Journal of The Korean Astronomical Society
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    • v.29 no.spc1
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    • pp.61-62
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    • 1996
  • The photometry is reported for galaxies in two clusters A1983, 2065 with redshifts 0.046, 0.072 respectively. The luminosity segregation is observed only within a magnitude from the brightest galaxy. The alignment of the galaxy major axis is observed in the Corona Borealis cluster. The intermediate distance clusters (0.05 < z < 0.15) will be studied by CCD mounted on 125cm RCh and 70cm meniscus type telescopes.

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