53,867 research outputs found

    Wright, C J, NX33014

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/427368Surname: WRIGHT. Given Name(s) or Initials: C J. Military Service Number or Last Known Location: NX33014. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 1684.250415 Item: [2016.0049.59629] "Wright, C J, NX33014

    Wright, C J, Ss Austral Mercantile Marine

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/427400Surname: WRIGHT. Given Name(s) or Initials: C J. Military Service Number or Last Known Location: SS AUSTRAL MERCANTILE MARINE. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 4080.250481 Item: [2016.0049.59661] "Wright, C J, Ss Austral Mercantile Marine

    The Persistence of the R.A. Fisher-Sewall Wright Controversy

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    This paper considers recent heated debates led by Jerry A. Coyne and Michael J. Wade on issues stemming from the 1929-1962 R. A. Fisher-Sewall Wright controversy in population genetics. William B. Provine once remarked that the Fisher-Wright controversy is central, fundamental, and very influential. Indeed, it is also persistent. The argumentative structure of the recent (1997-2000) debates is analyzed with the aim of eliminating a logical conflict in them, viz., that the two “sides” in the debates have different aims and that, as such, they are talking past each other. Given a philosophical analysis of the argumentative structure of the debates, suggestions supportive of Wade’s work on the debate are made that are aimed, modestly, at putting the persistent Fisher-Wright controversy on the course to resolution

    Skandinaviens fiskar. Förra delen, Text / målade af Wilh. von Wright ; med text af B. Fries, C. U. Ekström och C. Sundevall.

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    Von Wrightin taitelijaveljeksistä Wilhelm v. Wright (1810-1887) muutti Ruotsiin 18-vuotiaana avustaakseen vanhempaa veljeään Magnusta SKANDINAVIENS FÅGLAR -teoksen (ks. kohde 258) valmistamisessa. Wilhelm jäi pysyvästi Ruotsiin ja ryhtyi työskentelemään Kuninkaallisen tiedeakatemian piirtäjänä. Vuonna 1836 alkoi ilmestyä laaja kalakuvasto SKANDINAVIENS FISKAR, johon hän oli laatinut kuvat ja eläintieteilijät C. U. Ekström, B. F. Fries ja C. J. Sundevall kirjoittaneet tekstit. Tästä teoksesta tuli v. Wrightin kuvitustöistä merkittävin ja korkeatasoisin. Myöhemmin v. Wright toimi Bohuslänin kalastuksentarkastajan virassa, mutta halvaantui loppuelämäkseen yli kolmenkymmenen vuoden ajaksi

    Interview with J.C. "Red" Wright, 1985.

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    Leakey, Texas J. C. "Red" Wright discusses history of pecan farming in Texas, including the naming of pecan varieties for the Indian tribes who were the forerunners of the pecan culture and the partnership between the Texas University System and the US Department of Agriculture. He describes the cultivation, harvesting, and marketing of pecans at his Frio Pecan Farm in Leakey, Texas

    Pioneer personal history, C. Angus Wright

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    Typescript of a sketch biography of Charles Angus Wright of Ogden, based on an interview. He was born in Ogden in 1878, grandson of Mormon pioneers who came to Utah in the 1850s. Typed by Maurice L. Howe in 193

    J George Wright

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    Photograph of J George Wright, Osage Indian agent, c.1926-1927

    Wavefield decomposition

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    This book aims to give a thorough grounding in the mathematical tools necessary for research in acoustics. Twelve authors, all highly-respected researchers in the field of acoustics, provide a comprehensive introduction to mathematical analysis and its applications in acoustics, through material developed for a summer school in mathematics for acoustics researchers funded by the UK Engineering and Physical Sciences Research Council. Mathematical Methods, Wave Motion, Aeroacoustics and Signal Processing are covered in fourteen chapters by authors including Keith Attenborough (Hull), John Chapman (Keele), Trevor Cox (Salford), Chris Linton and Maureen McIver (Loughborough), and Nigel Peake (Cambridge). There are worked examples, exercises and suggestions for further reading where appropriate. This book is suitable for advanced undergraduate and graduate courses in acoustics and will form an important reference source for researchers in the field. Contents: Mathematical Methods: Vector Calculus (J W Elliott) Functions of a Complex Variable (J W Elliott) Integral Transforms (J W Elliott) Asymptotic Expansion of Integrals (R H Self) Wave Motion: The Wiener–Hopf Technique (M C M Wright) Waveguides (M McIver & C M Linton) Wavefield Decomposition (M C M Wright) Acoustics of Rigid–Porous Materials (K Attenborough & O Umnova) Aeroacoustics: Generalised Functions in Aeroacoustics (N Peake) Monopoles, Dipoles, and Quadrupoles (C J Chapman) Corrugated Pipe Flow (J W Elliott) Signal Processing: Digital Filters (P J Duncan) Measurement of Linear Time-Invariant Systems (T J Cox & P Darlington) Numerical Optimisation (T J Cox & P Darlington) Readership: Graduate students, advanced undergraduate students, researchers in mechanical engineering and mathematical physics

    The Wiener-Hopf Technique

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    This book aims to give a thorough grounding in the mathematical tools necessary for research in acoustics. Twelve authors, all highly-respected researchers in the field of acoustics, provide a comprehensive introduction to mathematical analysis and its applications in acoustics, through material developed for a summer school in mathematics for acoustics researchers funded by the UK Engineering and Physical Sciences Research Council. Mathematical Methods, Wave Motion, Aeroacoustics and Signal Processing are covered in fourteen chapters by authors including Keith Attenborough (Hull), John Chapman (Keele), Trevor Cox (Salford), Chris Linton and Maureen McIver (Loughborough), and Nigel Peake (Cambridge). There are worked examples, exercises and suggestions for further reading where appropriate. This book is suitable for advanced undergraduate and graduate courses in acoustics and will form an important reference source for researchers in the field. Contents: Mathematical Methods: Vector Calculus (J W Elliott) Functions of a Complex Variable (J W Elliott) Integral Transforms (J W Elliott) Asymptotic Expansion of Integrals (R H Self) Wave Motion: The Wiener–Hopf Technique (M C M Wright) Waveguides (M McIver & C M Linton) Wavefield Decomposition (M C M Wright) Acoustics of Rigid–Porous Materials (K Attenborough & O Umnova) Aeroacoustics: Generalised Functions in Aeroacoustics (N Peake) Monopoles, Dipoles, and Quadrupoles (C J Chapman) Corrugated Pipe Flow (J W Elliott) Signal Processing: Digital Filters (P J Duncan) Measurement of Linear Time-Invariant Systems (T J Cox & P Darlington) Numerical Optimisation (T J Cox & P Darlington) Readership: Graduate students, advanced undergraduate students, researchers in mechanical engineering and mathematical physics

    Mammalian drug resistant mutants with multiple gene amplifications: Genes encoding the M1 component of ribonucleotide reductase, the M2 component of ribonucleotide reductase, ornithine decarboxylase, p5-8, the H-subunit of ferritin and the L-subunit of ferritin

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