8,846 research outputs found

    Mystery Author Stan Jones and Sepculative Fiction Authors Sterling Emmal and L. S. Goulet

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    Sterling Emmal is author of the sci-fi fantasy The Executioner of Rawule and L. S. Goulet is author of the fantasy book Sword of Dragonblood. Tundra Kill is Stan Jones' latest Nathan Active mystery. His other books include White Sky, Black Ice; Shaman Pass, Frozen Sun; Village of the Ghost Bears, and the nonfiction classic, The Spill: Personal Stories from the Exxon Valdez Disaster, coauthored with Sharon Bushell

    Virginia L. Jones and Edward A. Jones, circa 1970

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    Virginia L. Jones and Edward A. Jones shake hands with others.The Atlanta University Center Robert W. Woodruff Library acknowledges the generous support of the Council on Library and Information Resources (CLIR) in supporting the processing and digitization of a number of historic collections as part of the project: Our Story: Digitizing Publications and Photographs of the Historically Black Atlanta University Center Institutions.</em

    Jacob Viner’s Reminiscences from the New Deal (February 11, 1953)

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    This paper presents and reproduces an unpublished oral history interview given by Jacob Viner in 1953. The interview released by Viner for the Columbia Oral History Project gives us a valuable opportunity to throw light on his advisory activity during the New Deal Era. In our introduction we attempt to make a critical appraisal of Viner's reminiscences and to state the contribution they can provide to our general knowledge of the period. In addition, we also attempt to find out some biographical and interpretative elements useful to understand Viner’s own vision and his contribution to important economic policy processes during the New Deal.

    The shaping of student knowledge: learning with dynamic geometry software

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    The focus of this paper is a software genre usually referred to as ‘dynamic geometry’ because of the ability of the user to dynamically manipulate geometrical figures created with the software tool. Using data from a longitudinal study of 12-13 students’ use of dynamic geometry software, the focus of the analysis is on the interpretations the students make of geometrical objects and relationships when using this form of software. The analysis suggests that the students’ mathematical reasoning is shaped by their interactions with the software in that their ability to explain geometrical facts and relationships evolves from imprecise, ‘everyday’ expressions, through reasoning that is overtly mediated by the software environment, to mathematical explanations of the geometric situation that transcend the particular tool being used. Such findings suggest that curriculum initiatives that encourage the use of dynamic geometry software are appropriate but that the incorporation of such software into classroom practices is unlikely to be straightforward

    Supplementary Material, Fig._S3 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts

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    Supplementary Material, Fig._S3 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p

    Supplementary Material, Fig._S5 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts

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    Supplementary Material, Fig._S5 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p

    Supplementary Material, Fig._S1 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts

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    Supplementary Material, Fig._S1 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p

    Supplementary Material, Fig._S2 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts

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    Supplementary Material, Fig._S2 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p

    Supplementary Material, Fig._S4 – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts

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    Supplementary Material, Fig._S4 for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p

    Supplementary Material, TIPA_Supplementary_Figures_Revised – Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts

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    Supplementary Material, TIPA_Supplementary_Figures_Revised for Tau-independent Phase Analysis: A Novel Method for Accurately Determining Phase Shifts by Michael C. Tackenberg, Jeff R. Jones, Terry L. Page and Jacob J. Hughey in Journal of Biological Rhythms</p
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