989 research outputs found

    Account for school fees paid from Robert Andrew Mather to Margaret Beale, Tasmania, 1856

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    Account paid by Robert Andrew to Margaret Beale for the school fees of his daughters Ann Benson and Sarah paid in advance for the first quarter of 1856

    Envelope Addressed to Andrew Mitchell, 1959

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    An envelope addressed to Andrew, owner of Mitchell's Hotel and Club Handy on Beale Street

    IP Wales Papers

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    A. Beale, “Intellectual Property is a tool for Economic Development in Wales” WIPO – WTO Colloquium, papers 2010 A. Beale and D.Blackaby and L.Mainwaring, “University Patenting in Wales, Scotland and Northern Ireland: a Comparative Analysis”, (2008), Volume 62 Higher Education Quarterly J. Allan and A. Beale, "Patent & Trade Mark Statistics for Wales", (2005), Issue 1 Wales Journal of Law and Policy A. Beale and A. George, "IP Wales: A Web Based Project", (2001), Issue 1 Wales Journal of Law and Policy A. Beale, M. Clement, I. Davies, "Intellectual Property Activity in Wales: A Report on the Support for Innovative SMEs Project", (2001), Issue 1 Wales Journal of Law and Polic

    Battle-Scarred: Surgery, Medicine and Military Welfare during the British Civil Wars

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    The British Civil Wars of the mid-17th Century are often overlooked in history classrooms and television channels, yet they represent one of the most traumatic periods in the history of Britain, killing proportionally far more British than the World Wars of the 20th Century. In an effort to communicate the human cost of the Civil Wars, Dr Andrew Hopper and history PhD students Stewart Beale and Hannah Worthen write about their recent exhibition '˜Battle- Scarred', which displays medical instruments and aspects of 17th Century welfare systems

    Romancing Beale Street (review)

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    The author reviews Barry Jenkins’s 2018 film adaptation of Baldwin’s novel, If Beale Street Could Talk, finding that Jenkins’s lush, painterly, and dreamlike visual style successfully translates Baldwin’s cadenced prose into cinematic language. But in interpreting the novel as the “perfect fusion” of the anger of Baldwin’s essays and the sensuality of his fiction, Jenkins overlooks the novel’s most significant aspect, its gender politics. Baldwin began working on If Beale Street Could Talk shortly after being interviewed by Black Arts poet Nikki Giovanni for the PBS television show, Soul!. Giovanni’s rejection of Baldwin’s claims that for black men to overcome the injuries of white supremacy they needed to fulfill the breadwinner role prompted him to rethink his understanding of African American manhood and deeply influenced his representation of the novel’s black male characters. The novel aims to disarticulate black masculinity from patriarchy. Jenkins’s misunderstanding of this aspect of the novel surfaces in his treatment of the character of Frank, who in the novel serves as an example of the destructiveness of patriarchal masculinity, and in his rewriting of the novel’s ending

    Dining Down East piece on Augusta\u27s Beale Street Barbeque, owned by Augusta na

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    Dining Down East piece on Augusta\u27s Beale Street Barbeque, owned by Augusta native Michael Quigg, 39, along with his brothers and ex-wife. The family company also has restaurants in Bath and South Portland. The menu is subtly adapted to each area

    Assessing late-time singular behaviour in symmetry-plane models of 3D Euler flow

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    Motivated by work on stagnation-point type exact solutions of the 3D Euler fluid equations by Gibbon [Gibbon et. al. Phys. D, 132, 497, (1999)] and the subsequent demonstration of finite-time blowup by Constantin [Constantin, Math. Res. Notices, 9, 455, (2000)] we introduce a one-parameter family of models of the 3D Euler equations on a 2D symmetry plane. These models provide a collection of blow-up scenarios which admit analytical solutions and are computationally inexpensive in comparison to the full 3D Euler equations. We take advantage of these features to examine the efficacy of novel methods which aid the assessment of finite-time blow-up in numerical simulations. The principal of these is the mapping to regular systems [Bustamante, Phys. D, 240, 1092, (2011)]; a bijective nonlinear mapping of time and the prognostic variables based on a Beale-Kato-Majda (BKM) type supremum norm regularity condition [Beale et. al. Commun. Math. Phys. 94, 61, (1984)]. We show a 3 order of magnitude increase of accuracy of the singularity time when employing the mapping with negligible additional computational expense. An investigation of the spectra of the primary field (vortex stretching rate) allows us to confirm a power law decrement of the analyticity-strip width with time in agreement with rigorous bounds bridging between the global spatial behaviour and BKM theorems [Bustamante & Brachet, Phys. Rev. E. 86, (2012)]

    Electron Hydrodynamics with X-momentum Conservation

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    The flow of electrons in most materials is nearly Ohmic &ndash; that is the current density is uniform and proportional to the applied voltage. In these materials the contributions from electron-electron collisions are negligible when compared to electron-ion collisions and even moreso when compared to the contributions from electron-impurity collisions [1]. Historically, the approach in solid-state physics has been to treat these contributions collectively neglecting the nuance between momentum relaxation and conservation &ndash; embodied in the Drude model under a single collision time &tau; [2]. However, as far back as the 1960s it has been suggested that hydrodynamic flow characterized by viscous effects may be observed in ultra-pure, low temperature metals when electron-electron interactions again become significant [3]. A schematic depicting these two types of flows is shown in Figure 1, in the hydrodynamic flow the velocity is maximal at the center and suppressed along the edges. This phenomena went mostly ignored until the early 21st century when rapid advancement in the fabrication of ultra-pure materials enabled experimental detection of these effects. Since then signatures of electron hydrodynamics has been detected in a variety of correlated electron materials such as graphene [4], W T e2 [5], P dCoO2 [6], W P2 [7]. The purity of these materials may be observed by the fact that the resistance of the materials is directly proportional to their scattering rates. Experimental evidence for this flow is shown in Figure 2 . This technological advancement and the commercial success of materials such as graphene has created renewed interest in this field and necessitated the development of theories which accommodate the effects of hydrodynamic effects. In this paper we will develop one such theory &ndash; but first we will provide a primer on modern hydrodynamics.</p

    Supplementary_data – Supplemental material for Casein Kinase 1 Underlies Temperature Compensation of Circadian Rhythms in Human Red Blood Cells

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    Supplemental material, Supplementary_data for Casein Kinase 1 Underlies Temperature Compensation of Circadian Rhythms in Human Red Blood Cells by Andrew D. Beale, Emily Kruchek, Stephen J. Kitcatt, Erin A. Henslee, Jack S.W. Parry, Gabriella Braun, Rita Jabr, Malcolm von Schantz, John S. O’Neill and Fatima H. Labeed in Journal of Biological Rhythms</p

    Electron Hydrodynamics with X-momentum Conservation

    No full text
    The flow of electrons in most materials is nearly Ohmic &ndash; that is the current density is uniform and proportional to the applied voltage. In these materials the contributions from electron-electron collisions are negligible when compared to electron-ion collisions and even moreso when compared to the contributions from electron-impurity collisions [1]. Historically, the approach in solid-state physics has been to treat these contributions collectively neglecting the nuance between momentum relaxation and conservation &ndash; embodied in the Drude model under a single collision time &tau; [2]. However, as far back as the 1960s it has been suggested that hydrodynamic flow characterized by viscous effects may be observed in ultra-pure, low temperature metals when electron-electron interactions again become significant [3]. A schematic depicting these two types of flows is shown in Figure 1, in the hydrodynamic flow the velocity is maximal at the center and suppressed along the edges. This phenomena went mostly ignored until the early 21st century when rapid advancement in the fabrication of ultra-pure materials enabled experimental detection of these effects. Since then signatures of electron hydrodynamics has been detected in a variety of correlated electron materials such as graphene [4], W T e2 [5], P dCoO2 [6], W P2 [7]. The purity of these materials may be observed by the fact that the resistance of the materials is directly proportional to their scattering rates. Experimental evidence for this flow is shown in Figure 2 . This technological advancement and the commercial success of materials such as graphene has created renewed interest in this field and necessitated the development of theories which accommodate the effects of hydrodynamic effects. In this paper we will develop one such theory &ndash; but first we will provide a primer on modern hydrodynamics.</p
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