1,696 research outputs found

    Stokes, B G (Bruce Goodwin), NX55715

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    This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete.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/419515Surname: STOKES. Given Name(s) or Initials: B G (BRUCE GOODWIN). Military Service Number or Last Known Location: NX55715. Missing, Wounded and Prisoner of War Enquiry Card Index Number: 39952.244094 Item: [2016.0049.51776] "Stokes, B G (Bruce Goodwin), NX55715

    Launch of 'Adjacent worlds : a literary life of Bruce Dawe' by Ken Goodwin, University of Queensland Co-op Bookshop, 5 Aug 1988

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    The Bruce Dawe Papers include correspondence, poetry and prose manuscripts, newspaper cuttings, audiotape recordings, and miscellaneous items.Australian poet Dr Bruce Dawe, AO, was born in Fitzroy, Melbourne. From 1959 to 1968 he served in the RAAF, completing his first degree and his first three volumes of poetry during this period. Dawe taught English and History at Downlands College, Toowoomba. In 1990 he was made an Associate Professor at the University of Southern Queensland. A prolific and popular poet, Bruce Dawe has published poetry collections, short stories and essays and received numerous awards, including the Patrick White Literary Award (1980) and the FAW Christopher Brennan Award (1983). He has also written as: Donald Bruce Dawe, D. B. Dawe, Leyburn Choate, Llewellyn Rhys and Frank Hamilton.[Additional information: https://www.austlit.edu.au/austlit/page/A2508

    Chiroderma trinitatum Goodwin 1958

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    <i>Chiroderma trinitatum</i> Goodwin, 1958 <p> VOUCHER MATERIAL: <b>Waqanki</b>: 1 adult male (MUSM 39179); see table 12 for measurements.</p> <p> IDENTIFICATION: We consulted descriptions and measurements of <i>Chiroderma trinitatum</i> provided by Goodwin (1958), Goodwin and Greenhall (1961), Baker and Genoways (1976), Gardner (1976), Carter and Dolan (1978), Genoways and Williams (1979), Swanepoel and Genoways (1979), Brosset and Charles-Dominique (1990), Anderson (1997), Simmons and Voss (1998), Lim et al. (2005), Taddei and Lim (2010), Garbino et al. (2012), Tello et al. (2014), and Rocha et al. (2016). Two subspecies are currently recognized: <i>C. t. gorgasi</i> (Panama south to western Colombia and northwestern Ecuador) and <i>C. t. trinitatum</i> (Trinidad, eastern Colombia, Ecuador, and Peru, and Venezuela, the Guianas, Brazil, and northern Bolivia) (Gardner, 2008c). Our Mayo River basin specimen exhibits the diagnostic characteristics of the nominate subspecies: small size (FA <42.5 mm, GLS <23 mm); dorsal stripe arising between the shoulders and extending across the head; muzzle short and broad; furred legs; uropatagium partially furred, lack of a conspicuous fringe of hair on its trailing edge; skull lacking nasal bones; and upper inner incisors that converge along their distal third, contacting each other at the tips (Simmons and Voss, 1998; Gardner, 2008c; Garbino et al., 2012). Measurements of our specimen fall within the range reported for the species.</p>Published as part of <i>Velazco, Paúl M. & Patterson, Bruce D., 2019, Small Mammals Of The Mayo River Basin In Northern Peru, With The Description Of A New Species Of Sturnira (Chiroptera: Phyllostomidae), pp. 1-69 in Bulletin of the American Museum of Natural History 2019 (429)</i> on page 2

    The ancestry of Elisha Goodwin of sixth generation of Goodwin family of Kittery, York County, Maine, and his descendants.

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    "The author ... has copied from 'The Goodwins of Kittery, Me"," by John Samuel Goodwin "the ancestry of Elisha (of the sixth generation from Daniel the emigrant)"Mode of access: Internet

    Page 39

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    Images and descriptions of Arkansas College students Kelmar M. Burge, Bruce Chandler, Clair Davis, J. Fletcher Ferrill, Frances Fitzhugh, Frances Goodwin, and Margaret Goodwin

    Tom Goodwin and Bob Kindleman

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    Photograph - Tom Goodwin on a binder and Bob Kindleman on a tractor, Athabasca, Albert

    Pseudo-Goodwin cycles in a Minsky model

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    © The Author 2016. Published by Oxford University Press on behalf of the Cambridge Political Economy Society. All rights reserved. Goodwin cycles result from the dynamic interaction between a profit-led demand regime and a reserve army effect in income distribution. The paper proposes the concept of a pseudo-Goodwin cycle. We define this as a counter-clockwise movement in output and wage share space which is not generated by the usual Goodwin mechanism. In particular, it does not depend on a profit-led demand regime. As a demonstration, a simple Minsky model is extended by adding a reserve army distribution mechanism such that the wage share responds positively to output. In the extended Minsky model, cycles are generated purely through the interaction between financial fragility and demand. In a first step we assume no feedback from income distribution to demand. We demonstrate that the model generates a pseudo- Goodwin cycle in output-wage share space. In a second step, we show that the result continues to hold even if a wage-led demand regime is introduced, although this can introduce instability. Our models demonstrate that the existence of a counter- clockwise movement of output and the wage share cannot be regarded as proof of the existence of a Goodwin cycle and a profit-led demand regime

    RAL, Goodwin Model

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    This collection includes: • Shaikh, A. (n.d.). The Goodwin model, Cobb-Douglas production function, and Solow [Handwritten manuscript notes]. • Author unknown. (n.d.). Wages, unemployment, price setting, and the natural rate of unemployment [Pages from macroeconomics textbook]. • Author unknown. (n.d.). The Phillips curve, Okun\u27s law, aggregate demand, and disinflation [Pages from macroeconomics textbook]. • Author unknown. (n.d.). Productivity, the natural rate of unemployment, and technological progress [Pages from macroeconomics textbook]. • Shaikh, A. (2001, September 5). RAL dynamics: Technical change, population growth, and Harrod-neutral technical change [Handwritten manuscript notes]. • Shaikh, A. (n.d.). Analysis of the Goodwin-Shah-Desai 1981 model [Handwritten manuscript notes]. • Shaikh, A. (2002, January 23). The Okishio viability condition [Handwritten manuscript notes]. • Shaikh, A. (2001, November 28). Unemployment and wage dynamics: Layard, Nickell, and Jackman [Handwritten manuscript notes]. • Shaikh, A. (2001, December 12). Unemployment and wage dynamics: The NAIRU story and Layard, Nickell, and Jackman [Handwritten manuscript notes]. • Shaikh, A. (1997, October 29). ralla.sim: A modification of Goodwin\u27s model [Computer model printout]. • Shaikh, A. (1997, October 29). goodwina for Goodwin\u27s model [Computer model printout]. • Shaikh, A. (1997, October 29). rall.sim: A modification of Goodwin\u27s model (stable and cyclically convergent) [Computer model printout]. • Shaikh, A. (n.d.). The original Goodwin model in differential and difference forms [Handwritten manuscript notes]. • Shaikh, A. (n.d.). Equations for changes in wages and capital [Handwritten manuscript note]. • Shaikh, A. (n.d.). Modified Goodwin model in difference form [Handwritten manuscript notes]. • Shaikh, A. (n.d.). Equations for the Goodwin model [Handwritten manuscript notes]. • Shaikh, A. (2002, January 22). The basic Goodwin model with embodied technical change [Handwritten manuscript notes]. • Shaikh, A. (2002, January 23). The Goodwin model with endogenous capital-labor ratio: Desai (1984) and D. Harvie (2000) [Handwritten manuscript notes]. • Shaikh, A. (n.d.). W GOODWINRAL1 BRUNI.WF1 data tables for the years 1947-2001 [Data file]. • Shaikh, A. (n.d.). Actual US data tables for the years 1947-2001 [Data file]. • Shaikh, A. (2002, January 25). Eviews program code for the Goodwin-Shah-Desai (1981) model [Computer program manuscript]. • Shaikh, A. (2002, January 31). Testing control variables and sample statements in Eviews [Handwritten manuscript notes]. • Shaikh, A. (n.d.). Stability analysis for the Goodwin model [Handwritten manuscript notes]. • Shaikh, A. (n.d.). Graph of simulated data for wage share and employment share from the Goodwinralla.prg Eviews program [Graphical manuscript material]. • Shaikh, A. (1991, December 19). goodwinb: A modification of Goodwin\u27s model with an endogenous component to technical change [Computer model file]. • Shaikh, A. (1991, December 19). Annotated graph of employment ratio from the Tutsim 6 model Goodwinb [Graphical manuscript material]. • Shaikh, A. (1991, December 19). Graph of wage share from the Tutsim 6 model Goodwinb [Graphical manuscript material]. • Shaikh, A. (n.d.). Graph of a modified Goodwin model with zero natural growth [Graphical manuscript material]. • Shaikh, A. (1991, December 17). Modified Goodwin model with partially endogenous technical change [Handwritten manuscript notes]. • Shaikh, A. (1991, December 17). Analysis of the modified Goodwin model Goodwinb [Handwritten manuscript notes]. • Shaikh, A. (1991, December 22). Comparison of RAL Model 1 (RALI.SIM) and the Goodwin model [Handwritten manuscript notes]. • Shaikh, A. (1991, December 22). Calculations for the RAL1.SIM model [Handwritten manuscript calculations]. • Shaikh, A. (2001, March 14). Using data from w-r curves to derive an aggregate production function [Handwritten manuscript note]. • Shaikh, A. (n.d.). Neoclassical model notes and diagrams [Handwritten manuscript notes]. • Shaikh, A. (2002, January 29). Comparison of differential and difference forms of the Goodwin model [Handwritten manuscript notes]. • Shaikh, A. (n.d.). Model\u27s switch point [Handwritten manuscript notes]. • Shaikh, A. (2002, February 6). Identity accounts [Handwritten manuscript notes]. • Shaikh, A. (2002, January 28). Eviews program code for the gdwnelt1b model: A modified Goodwin model [Computer program manuscript]. • Shaikh, A. (2002, January 28). Graph of wage share and employment ratio from the gdwnelt1b model [Graphical manuscript material]. • Shaikh, A. (2002, January 28). Eviews program code for the gdwnelt1b model [Computer program manuscript]. • Shaikh, A. (2002, January 28). Analysis of the GDWELT1b model in Eviews [Handwritten manuscript notes]. • Shaikh, A. (2002, January 27). Analysis of the GDWNELT1B Eviews model [Handwritten manuscript notes]. • Shaikh, A. (2002, January 28). Annotated Eviews program code for the gdwnelt1b model [Computer program manuscript]. • Shaikh, A. (2002, January 21). Annotated Eviews program code for the gdwnelt2 model [Computer program manuscript]. • Shaikh, A. (n.d.). Goodwinral2.prg: Program description and code for an extended Goodwin model [Computer program manuscript]. • Shaikh, A. (2002, January 22). Eviews program code for the Goodwin-Desai model [Computer program manuscript]. • Shaikh, A. (n.d.). Goodwinral1.prg: Program description and code for an extended Goodwin model [Computer program manuscript]. • Shaikh, A. (n.d.). Goodwinral3.prg: Program description and code for a Goodwin model with embodied technical change [Computer program manuscript]

    VO2 on-kinetics in isolated canine muscle in situ during slowed convective O2 delivery

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    A substantial body of evidence now suggests that while increasing O2 delivery to a working muscle during submaximal contractions onset may not speed VO2 on-kinetics, slowing the rate of O2 delivery may slow the VO2 on-kinetics response. While many studies have used techniques that measure limb blood flow, central blood flow, pulmonary VO2, and limb VO2, relatively few studies have characterized blood flow on-kinetics and VO2 on-kinetics directly across a working muscle in situ. Previous research has established that increasing O2 delivery to the muscle prior to contractions onset (via increased blood flow delivery) does not speed the VO2 on-kinetics response in transitions to submaximal contractions in isolated muscle in situ. The purpose of this study was to determine the effect of slowing blood flow on-kinetics on VO2 on-kinetics. The isolated canine gastrocnemius muscle complex in situ was used (n=11). After surgical isolation of the muscle, four trials were performed. A Control Trial (CT) was always the first trial, as it was a trial to establish resting blood flow and steady state blood flow. The remaining three trials were randomized: Control Trial 20 (CT20), in which pump perfusion of the muscle was set to follow a monoexponential rise in which the tau (time to ~63.2% response) was set at 20 sec; Experimental Trial 45 (EX45), in which pump perfusion of the muscle was set to follow a monoexponential rise in which the tau was set at 45 sec; and Experimental Trial 70 (EX70), in which pump perfusion of the muscle was set to follow a monoexponential rise in which the tau was set at 70 sec. VO2 average mean response time (time delay + tau = MRT) values for CT20, EX45, and EX70 were 19.9±3.8, 26.3±5.9, and 31.7±4.1 sec, respectively. MRT values for EX70 and EX45 were significantly different from CT20 (p=<0.0001, p=0.0031) and each other (p=0.0092). Furthermore, when MRT values of the VO2 on-response were plotted against the MRT values from the blood flow/O2 delivery on-response, there was a linear relationship (R=0.99997). These results, combined with earlier work done with this same model, suggest that in this model the muscle contracts with a blood flow/O2 delivery very closely matched to the O2 utilization. The progressive, linear slowing of VO2 on-kinetics with slower O2 delivery suggests that either 1) the appropriate level of metabolites needed to stimulate the control VO2 at any given time during the on-transition could not be reached, or 2) the appropriate levels of metabolites needed to stimulate the control VO2 at any given time during the on-transition were reached, yet the O2 was not available. These results show that muscle VO2 and blood flow/O2 delivery are very closely matched during contractions onset. Given the inherent weakness in studies that must estimate muscle VO2 and muscle blood flow from other measures, we have carried out experiments that directly measure the variables of interest (blood flow, VO2). To our knowledge, this is the first study of its kind to progressively slow the O2 delivery rate by altering the time course of the normal monoexponetial blood flow on-response without altering the resting or steady state O2 delivery rate. Because various disease states present with impaired O2 delivery on-kinetics and/or impaired VO2 on-kinetics, these results offer great insight into mechanisms of both healthy and diseased mammalian muscle
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