Inspec Archive - List of Journals Covered Between 1898 and 1968
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Department of Physics and Astronomy 1
Department of Physics and Astronomy 1 PHSX 216 and PHSX 236, provide a calculus-based foundation in Department of Physics physics for students in physical science, engineering, and mathematics. PHSX 313 and the laboratory course, PHSX 316, provide an introduction and Astronomy to modern physics for majors in physics and some engineering and physical science programs. Why study physics and astronomy? Students in biological sciences, health sciences, physical sciences, mathematics, engineering, and prospective elementary and secondary Our goal is to understand the physical universe. The questions teachers should see appropriate sections of this catalog and major addressed by our department’s research and education missions range advisors for guidance about required physics course work. Chemistry from the applied, such as an improved understanding of the materials that majors should note that PHSX 211 and PHSX 212 are prerequisites to can be used for solar cell energy production, to foundational questions advanced work in chemistry. about the nature of mass and space and how the Universe was formed and subsequently evolved, and how astrophysical phenomena affected For programs in engineering physics (http://catalog.ku.edu/engineering/ the Earth and its evolution. We study the properties of systems ranging engineering-physics/), see the School of Engineering section of the online in size from smaller than an atom to larger than a galaxy on timescales catalog. ranging from billionths of a second to the age of the universe. Our courses and laboratory/research experiences help students hone their Graduate Programs problem solving and analytical skills and thereby become broadly trained critical thinkers. While about half of our majors move on to graduate The department offers two primary graduate programs: (i) an M.S. -
Appendix E Nobel Prizes in Nuclear Science
Nuclear Science—A Guide to the Nuclear Science Wall Chart ©2018 Contemporary Physics Education Project (CPEP) Appendix E Nobel Prizes in Nuclear Science Many Nobel Prizes have been awarded for nuclear research and instrumentation. The field has spun off: particle physics, nuclear astrophysics, nuclear power reactors, nuclear medicine, and nuclear weapons. Understanding how the nucleus works and applying that knowledge to technology has been one of the most significant accomplishments of twentieth century scientific research. Each prize was awarded for physics unless otherwise noted. Name(s) Discovery Year Henri Becquerel, Pierre Discovered spontaneous radioactivity 1903 Curie, and Marie Curie Ernest Rutherford Work on the disintegration of the elements and 1908 chemistry of radioactive elements (chem) Marie Curie Discovery of radium and polonium 1911 (chem) Frederick Soddy Work on chemistry of radioactive substances 1921 including the origin and nature of radioactive (chem) isotopes Francis Aston Discovery of isotopes in many non-radioactive 1922 elements, also enunciated the whole-number rule of (chem) atomic masses Charles Wilson Development of the cloud chamber for detecting 1927 charged particles Harold Urey Discovery of heavy hydrogen (deuterium) 1934 (chem) Frederic Joliot and Synthesis of several new radioactive elements 1935 Irene Joliot-Curie (chem) James Chadwick Discovery of the neutron 1935 Carl David Anderson Discovery of the positron 1936 Enrico Fermi New radioactive elements produced by neutron 1938 irradiation Ernest Lawrence -
Report from Trieste: ICTP on the March Why Have More Than 22 000 Scientists Studied at the International Centre for Theoretical Physics? by Akhtar Mahmud Faruqui
Special reports Report from Trieste: ICTP on the march Why have more than 22 000 scientists studied at the International Centre for Theoretical Physics? by Akhtar Mahmud Faruqui A small Roman town under the Caesars, an indepen- responsibility to continue this flow of benefits to society dent municipality in the Middle Ages, a flourishing and, most important, to extend them to the very large international port and trading centre between the West fraction of the world's burgeoning populations that have and East after 1700, and an Italian entity since 1918, thus far — for whatever reason — been denied them," Trieste is a city of entrancing scenic attractions. Tucked D. Allan Bromley has noted.* The report, Physics in away in the northeast of Italy on the Adriatic Sea, the Perspective, strengthens Saiam and Bromley's view: city stands on tree-dotted hills resembling a sunlit sea- "Science is knowing. What man knows about inanimate washed amphitheatre, with the surrounding Carso nature is physics, or rather the most lasting and univer- plateau rated as one of the most enchanting landscapes sal things that he knows make up physics. As he gains in Europe. more knowledge, what would have appeared compli- But Trieste is now known not just for its scenic splen- cated or capricious can be seen as essentially simple and dours or past grandeurs. It is identified increasingly as in a deep sense orderly. And, to understand how things a meeting place of bright scientific minds from the West work is to see how, within environmental constraints and the East, from the North and the South. -
A Model for Free Will and Destiny- Part One
International Journal of Scientific and Research Publications, Volume 2, Issue 8, August 2012 1 ISSN 2250-3153 OF ESCHATOLOGICAL DOXIES AND HAUBERK HAUTEUR- A MODEL FOR FREE WILL AND DESTINY- PART ONE 1DR K N PRASANNA KUMAR, 2PROF B S KIRANAGI AND 3 PROF C S BAGEWADI Abstract: Ising model with $h\neq 0$, where the relation with gauge theory is used to discuss the phenomenon of confinements is firmly established on terra firma. It has been concluded by many Physicists that quantum spin diffusion in one dimensional chains and a presentation of the chiral potts model which illustrates the physical effects that can occur when the Euclidean and Minkowski regions and they are not connected by an analytic continuation. We state that when Euclidian and Minkowski regions are combined together many interesting results that could have wide ranging amplitudinal ramifications with perceptual field and perceiving object could be studied and thrown light upon. Consciousness distinction with unconsciousness and temporal superposition of latent intents and manifest actions(See Robert Merton) is another example that may provide bewildering results ,notwithstanding the fact we have not approached with ―open mind‖.Nonequilibrium statistical mechanics and its concomitant primary order and secondary organization with quantum field has been studied and investigated by takafumi kita where a conception, creation, process oriented and system oriented a concise and self-contained introduction to non equilibrium statistical mechanics with quantum field theory by considering an ensemble of interacting identical bosons or fermions as an example. An analogue can be seen in verbal proliferation, visual representation and expressible sense for they are essentially process oriented and system proclivitisied. -
Main Attributes of Nuclides Presented in This Book
Appendix A Main Attributes of Nuclides Presented in This Book Data given in TableA.1 can be used to determine the various decay energies for the specific radioactive decay examples as well as for the nuclear activation examples presented in this book. M stands for the nuclear rest mass; M stands for the atomic rest mass. The data were obtained from the NIST and are based on CODATA 2010 as follows: 1. Data for atomic masses M are given in atomic mass constants u and were obtained from the NIST at: (http://www.physics.nist.gov/pml/data/comp.cfm). 2. Rest mass of proton mp, neutron mn, electron me, and of the atomic mass constant u are from the NIST (http://www.physics.nist.gov/cuu/constants/index. html) as follows: −27 2 mp = 1.672 621 777×10 kg = 1.007 276 467 u = 938.272 046 MeV/c (A.1) −27 2 mn = 1.674 927 351×10 kg = 1.008 664 916 u = 939.565 379 MeV/c (A.2) −31 −4 2 me = 9.109 382 91×10 kg = 5.485 799 095×10 u = 0.510 998 928 MeV/c (A.3) − 1u= 1.660 538 922×10 27 kg = 931.494 060 MeV/c2 (A.4) 3. For a given nuclide, its nuclear rest energy was determined by subtracting the 2 rest energy of all atomic orbital electrons (Zmec ) from the atomic rest energy M(u)c2 as follows 2 2 2 Mc = M(u)c − Zmec = M(u) × 931.494 060 MeV/u − Z × 0.510 999 MeV. -
Detection of Black Holes
ehind t b h y e r s c o c Detection of Black Holes t t i i e e s s n n e e c c The Power of Robust Theory and Mathematics h h e e T T Albert Einstein Black holes stir the mind to the heights of imagination. publication of the General Theory in 1915, scientists toying What do these gravitational wells from which light cannot with the limits of Relativity Theory realized the very weird escape look like? Does speaking of them as being visible possibilities that arose. The prediction and acceptance of even make sense? And if we can't see them, how would black holes hinged on interpreting the predictions of we locate them? The greatest scientific minds have Einstein's Relativity Theory. struggled to understand black holes over the past century. In the face of many towering challenges, they now better understand these strange phenomena. Black holes are 1. In many cases, theories are incomplete at their bizarre, but they still appear to follow the laws of physics. birth. When first conceived, all scientific knowledge has a speculative character. As this This story describes how scientists have studied and story illustrates, much time usually passes before detected black holes throughout the last century. Because ideas are rejected or accepted by the scientific black holes embody the most extreme physics in the community. The theories of relativity, like all good Universe, significant efforts were required to understand scientific theories, explain natural phenomena, and accept what theory had predicted. Most scientists had bring coherence to a field of study, and suggest to overcome a sort of instinctual defense that told them research questions worth pursuing, how to go such a weird object could not possibly exist in our about answering those questions, and how to Universe. -
List of Journals
Revised 29 March 2005 www.iee.org/inspec List of Journals Journal names prefixed with * are abstracted completely. Journal names prefixed with † are electronic-only publications. *(AI EDAM) Artificial Intelligence for Engineering *Acoustics Bulletin Design, Analysis and Manufacturing *Acoustics Research Letters Online 73 Amateur Radio Today Acquisitions Librarian AAVSO Circular *Acta Acustica ABA Bank Marketing *Acta Acustica United With Acustica ABA Banking Journal *Acta Astronomica ABB Review *Acta Astrophysica Sinica ABI-Technik *Acta Automatica Sinica Abstract and Applied Analysis *Acta Crystallographica, Section A (Foundations of *ABU Technical Review Crystallography) †Academic Open Internet Journal Acta Crystallographica, Section B (Structural Science) Academic Radiology Acta Crystallographica, Section C (Crystal Structure Academic Reports, Faculty of Engineering, Tokyo Communications) Institute of Polytechnics *Acta Crystallographica, Section D (Biological Academie des Sciences. Comptes Rendus, Crystallography) Mathematique †Acta Crystallographica, Section E (Structure Reports Academie des Sciences. Comptes Rendus, Physique Online) Academie Serbe des Sciences et des Arts Bulletin, *Acta Cybernetica Classe des Sciences Techniques *Acta Electronica Sinica Academie Serbe des Sciences et des Arts, Glas, Classe Acta Graphica des Sciences Techniques *Acta Informatica Academy of Management Journal Acta Manilana Academy of Management Review *Acta Materialia Accountancy Acta Mathematica Sinica Accounting Organizations and Society Acta Mathematicae -
PROPOSAL for a Ph.D. in APPLIED and COMPUTATIONAL PHYSICS Department of Physics College of Arts and Sciences Requested Program I
PROPOSAL FOR A Ph.D. in APPLIED AND COMPUTATIONAL PHYSICS Department of Physics College of Arts anD Sciences Requested Program Implementation Term: Fall 2019 College of Arts anD Sciences Governance CAS GraDuate Committee on Instruction Date Submitted: March 1, 2010 Date Approved: January 13, 2011 CAS Assembly Date Submitted: February 1, 2011 Date Approved: March 15, 2011 University Governance GraDuate Council Date Submitted: March 30, 2011 Date Approved: December 5, 2011 Senate Date Submitted: January 2012 Date Approved: May 10, 2012 BoarD of Trustees Date Submitted Date Approved PresiDents Council Date Submitted Date Approved PROPOSAL FOR A Ph.D. in APPLIED AND COMPUTATIONAL PHYSICS Submitted by The Department of Physics January 29, 2010 Revised October 24, 2018 1 SUMMARY This catalog presents a proposal to create a Ph.D. degree, in the Department of Physics at Oakland University, in Applied and Computational Physics. The desired start date is the 2019 Fall Semester. In recent years, the Physical Sciences were recognized as extremely important for the economic development of the Unites States. The Department of Physics at Oakland University is amply prepared to take advantage of new opportunities and proposes an attractive PhD program in Applied and Computational Physics. Along the years, the consistent federal funding obtained by the non-medical physics members of the Department points to the high level of their research. New talented PhD students will further strengthen the faculty research; therefore, the new program promises to be highly beneficial for Oakland University. In addition, the possibility of training Ph.D. students in specialized areas of research is a fundamental part in the development of any natural sciences department. -
Salam-The Physicist
Salam-the physicist November 21, 2012 Salam-the physicist Modern Physics: 1900-1940s Black body radiation: 2 dρ ≈ ν dν (Classically) 3 ν dν 0 dρ ≈ (Planck s result) eβν − 1 Energy is quantized! ⇒ Quantum theory Salam-the physicist Michelson-Morley experiment ⇓ Einsten’s special theory of relativity (1905) Time dilation, length contraction Salam-the physicist 2 E = m c Salam-the physicist Einstein’s general theory of relativity (1915) Gravity is the curvature of spacetime! Salam-the physicist Electron, Proton, Neutron, Muon, Photon Electromagnetic force (mediated by photon) Strong Nuclear force (keeps the protons in the nucleus, thought to be mediated by mesons) Salam-the physicist Schr¨odinger’s non-relativistic equation to Dirac Equation 2 ∂ψ ~ 2 i~ = − ∇ + V ψ ∂t 2m ↓ ∂ψ i~ = i~ ~α · ∇~ + V ψ ∂t Dirac equation predicted the existence of the antiparticle of electron Positron was found in 1932 Beginning of Quantum Field Theory (which can deal with arbitrary number of particles and antiparticles at the same time) Salam-the physicist The theory of light and matter (Photons and electrons/positrons): Quantum Electrodynamics 1 2 L = ψ¯ i6∂ − m ψ − F − eψ¯6A ψ 4 interaction electrons/positrons photons | {z } |{z} | {z } Salam-the physicist Probability of such processes ∼ ∞ Salam-the physicist p − k pk p 4 m Σ(p) d k Z k2(k − p)2 Correction to the mass of the electron: m 7→ m + δm Λ2 δm ∼ log 2 m Mass renormalization mphy = m + δm Breakdown of the theory? Salam-the physicist Renormalization of QED Freeman Dyson Salam-the physicist Overlapping divergences Salam-the physicist PHYSICAL REVIEW VOLUM E 82, NUM B ER 2 APRIL 15. -
Guide to the Subrahmanyan Chandrasekhar Papers 1913-2011
University of Chicago Library Guide to the Subrahmanyan Chandrasekhar Papers 1913-2011 © 2006 University of Chicago Library Table of Contents Descriptive Summary 3 Information on Use 3 Access 3 Citation 3 Biographical Note 4 Scope Note 5 Related Resources 9 Subject Headings 9 INVENTORY 10 Series I: Personal Correspondence and Papers 10 Subseries 1: Biographical materials and personal papers 10 Subseries 2: Personal correspondence 12 Series II: Scientific Correspondence 20 Series III: Scientific Writings 45 Series IV: Lecture Notes 122 Subseries 1: Cambridge University notes 122 Subseries 2: University of Chicago Notes 124 Subseries 3: Special lectures 130 Series V: Astrophysical Journal Records 134 Series VI: Articles by Colleagues 136 Subseries 1: Offprints 136 Subseries 2: Typescripts 136 Series VII: Addenda 137 Subseries 1: Personal and Biographical 140 Sub-subseries 1: General personal and biographical papers 140 Sub-subseries 2: Personal correspondence 154 Sub-subseries 3: Publications 158 Sub-subseries 4: Chandra X-Ray Observatory 163 Subseries 2: Correspondence 164 Subseries 3: Writing 193 Subseries 4: Writings about Chandrasekhar 223 Subseries 5: Writings by others 229 Subseries 6: Audiovisual 239 Sub-subseries 1: Photographic material 239 Sub-subseries 2: Audio 267 Sub-subseries 3: Video 275 Subseries 7: Oversize 276 Subseries 8: Artifacts and framed items 292 Subseries 9: Medals 295 Subseries 10: Restricted 297 Sub-subseries 1: Administrative records and referee’s reports 297 Sub-subseries 2: Financial records 297 Sub-subseries 3: Letters of recommendation for colleagues and faculty appointment301 material Sub-subseries 4: Student grades and letters of recommendation 305 Descriptive Summary Identifier ICU.SPCL.CHANDRASEKHAR Title Chandrasekhar, Subrahmanyan. -
The Sudden Selector's Guide to Physics Resources
View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Purdue E-Pubs Purdue University Purdue e-Pubs Libraries Faculty and Staff choS larship and Research Purdue Libraries 2013 The uddeS n Selector's Guide to Physics Resources Michael Fosmire Purdue University, [email protected] Follow this and additional works at: http://docs.lib.purdue.edu/lib_fsdocs Recommended Citation Fosmire, Michael, "The uddeS n Selector's Guide to Physics Resources" (2013). Libraries Faculty and Staff Scholarship and Research. Paper 57. http://docs.lib.purdue.edu/lib_fsdocs/57 This document has been made available through Purdue e-Pubs, a service of the Purdue University Libraries. Please contact [email protected] for additional information. Sudden Selector’s Guide to Physics Resources ALCTS/CMS SUDDEN SELECTOR’S SERIES Sudden Selector’s Guide to Business Resources Sudden Selector’s Guide to Communication Studies Resources Sudden Selector’s Guide to Chemistry Resources Sudden Selector’s Guide to Biology Resources Sudden Selector’s Guide to Physics Resources ALCTS/CMS SUDDEN SELECTOR’S SERIES, #5 SUDDEN SELECTOR’S GUIDE to Physics Resources MICHAEL FOSMIRE Helene Williams, Series Editor Collection Management Section of the Association for Library Collections & Technical Services a division of the American Library Association Chicago 2013 While extensive effort has gone into ensuring the reliability of information appearing in this book, the publisher makes no warranty, express or implied, on the accuracy or reliability of the information, and does not assume and hereby disclaims any liability to any person for any loss or damage caused by errors or omissions in this publication. -
Cosmic Anger : Abdus Salam
COSMIC ANGER This page intentionally left blank COSMIC ANGER Abdus Salam – the fi rst Muslim Nobel scientist by Gordon Fraser 1 3 Great Clarendon Street, Oxford OX2 6DP Oxford University Press is a department of the University of Oxford. It furthers the University’s objective of excellence in research, scholarship, and education by publishing worldwide in Oxford New York Auckland Cape Town Dar es Salaam Hong Kong Karachi Kuala Lumpur Madrid Melbourne Mexico City Nairobi New Delhi Shanghai Taipei Toronto With offi ces in Argentina Austria Brazil Chile Czech Republic France Greece Guatemala Hungary Italy Japan Poland Portugal Singapore South Korea Switzerland Thailand Turkey Ukraine Vietnam Oxford is a registered trade mark of Oxford University Press in the UK and in certain other countries Published in the United States by Oxford University Press Inc., New York © Gordon Fraser 2008 The moral rights of the author have been asserted Database right Oxford University Press (maker) First published 2008 All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, without the prior permission in writing of Oxford University Press, or as expressly permitted by law, or under terms agreed with the appropriate reprographics rights organization. Enquiries concerning reproduction outside the scope of the above should be sent to the Rights Department, Oxford University Press, at the address above You must not circulate this book in any other binding or cover and you must impose the same condition on any acquirer British Library Cataloguing in Publication Data Data available Library of Congress Cataloging in Publication Data Data available Typeset by Newgen Imaging Systems (P) Ltd., Chennai, India Printed in Great Britain on acid-free paper by Biddles Ltd., www.biddles.co.uk ISBN 978–0–19–920846–3 (Hbk.) 1 3 5 7 9 10 8 6 4 2 Contents List of illustrations vi Introduction vii Acknowledgements and sources ix Author’s note xii 1.