LEADER 03894nam 2200685 450 001 9910461479903321 005 20200520144314.0 010 $a1-4773-0726-5 035 $a(CKB)3710000000463070 035 $a(EBL)3443788 035 $a(SSID)ssj0001544685 035 $a(PQKBManifestationID)16134727 035 $a(PQKBTitleCode)TC0001544685 035 $a(PQKBWorkID)13149554 035 $a(PQKB)11325911 035 $a(MiAaPQ)EBC3443788 035 $a(Au-PeEL)EBL3443788 035 $a(CaPaEBR)ebr11084907 035 $a(OCoLC)918594031 035 $a(EXLCZ)993710000000463070 100 $a20150815h20152015 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt 182 $cc 183 $acr 200 04$aThe magic key $ethe educational journey of Mexican Americans from K-12 to college and beyond /$fedited by Ruth Enid Zambrana and Sylvia Hurtado ; foreword by Patricia Ga?ndara 205 $aFirst edition. 210 1$aAustin, Texas :$cUniversity of Texas Press,$d2015. 210 4$d©2015 215 $a1 online resource (328 p.) 225 1 $aLouann Atkins Temple Women and Culture Series ;$vBook 38 300 $aDescription based upon print version of record. 311 $a1-4773-0370-7 320 $aIncludes bibliographical references and index. 327 $aForeword (Patricia Ga?ndara); A Personal Narrative (Sally Alonzo Bell, PhD); Acknowledgments; Abbreviations; Part I. Setting the Context; 1. Locked Doors, Closed Opportunities: Who Holds the Magic Key? (Ruth Enid Zambrana and Sylvia Hurtado); 2. History's Prism in Education: A Spectrum of Legacies across Centuries of Mexican American Agency; Experience and Activism 1600's-2000's (Victoria-Mari?a MacDonald and Jason Rivera); 3. Trend Analyses from 1971 to 2012 on Mexican American/Chicano Freshmen: Are We Making Progress? (Sylvia Hurtado); Part II. Conceptual Understandings 327 $a4. An Intersectional Lens: Theorizing an Educational Paradigm of Success (Ruth Enid Zambrana and Sylvia Hurtado)5. Parental Educational and Gender Expectations: Pushing the Educational Trajectory (Ruth Enid Zambrana and Rebeca Burciaga); 6. Examining the Influence of K-12 School Experiences on the Higher Education Pathway (Ruth Enid Zambrana, Anthony De Jesu?s, and Brianne A. Da?vila); Part III. Contemporary College Experiences 327 $a7. The Ivory Tower Is Still White: Chicana/o-Latina/o College Students' Views on Racism, Ethnic Organizations, and Campus Racial Segregation (Nolan L. Cabrera and Sylvia Hurtado)8. Campus Climate, Intersecting Identities, and Institutional Support among Mexican American College Students (Adriana Ruiz Alvarado and Sylvia Hurtado); Part IV. Implications for Educational Policy and Future Practices in P-16 Pathways and Beyond; 9. Mexican American Males' Pathways to Higher Education: Awareness to Achievement (Luis Ponjua?n and Victor B. Sa?enz) 327 $a10. The Role of Educational Policy in Mexican American College Transition and Completion (Frances Contreras)Notes; Bibliography; Contributing Authors; Index 410 0$aLouann Atkins Temple women & culture series ;$vBook 38. 606 $aMexican Americans$xEducation 606 $aEducation$xSocial aspects$zUnited States 606 $aMinorities$xEducation$zUnited States 606 $aDiscrimination in education 608 $aElectronic books. 615 0$aMexican Americans$xEducation. 615 0$aEducation$xSocial aspects 615 0$aMinorities$xEducation 615 0$aDiscrimination in education. 676 $a371.829/68073 702 $aZambrana$b Ruth Enid 702 $aHurtado$b Sylvia$f1957- 702 $aGa?ndara$b Patricia 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910461479903321 996 $aThe magic key$92473830 997 $aUNINA LEADER 01132nam a2200289 i 4500 001 991002810959707536 005 20020508210421.0 008 010704s1978 it ||| | ita 035 $ab11064043-39ule_inst 035 $aPARLA169490$9ExL 040 $aDip.to Filosofia$bita 082 0 $a030 100 1 $aProust, Jacques$0153141 245 12$aL'Encyclopédie :$bstoria, scienza e ideologia /$cJacques Proust 260 $aBologna :$bCappelli,$cc1978 300 $a150 p. ;$c21 cm. 490 0 $aNUC studio ;$v5 500 $aTit. orig.: L'Encyclopédie 650 4$aEnciclopedismo$zFrancia$ySec. 18. 650 4$aEncyclopédie, ou, Dictionnaire raisonne des sciences, des arts et des metiers 907 $a.b11064043$b23-02-17$c28-06-02 912 $a991002810959707536 945 $aLE005IF XXIII B 31$g1$i2005000273957$lle005$o-$pE0.00$q-$rl$s- $t0$u2$v0$w2$x0$y.i11191363$z28-06-02 945 $aLE005IF XXIII B 31 c. 2$g2$i2005000276927$lle005$o-$pE0.00$q-$rl$s- $t0$u0$v0$w0$x0$y.i15669178$z27-04-15 996 $aEncyclopédie$937056 997 $aUNISALENTO 998 $ale005$b01-01-01$cm$da $e-$fita$git $h2$i1 LEADER 12017oam 2200529 450 001 996499859803316 005 20231110224607.0 010 $a9783031099700$b(electronic bk.) 010 $z9783031099694 035 $a(MiAaPQ)EBC7150774 035 $a(Au-PeEL)EBL7150774 035 $a(CKB)25510542400041 035 $a(OCoLC)1352972660 035 $a(PPN)266350445 035 $a(EXLCZ)9925510542400041 100 $a20230413d2023 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aDetecting environmental radioactivity /$fM. Garci?a-Leo?n 210 1$aCham, Switzerland :$cSpringer,$d[2023] 210 4$d©2023 215 $a1 online resource (637 pages) 225 1 $aGraduate Texts in Physics 300 $aIncludes index. 311 08$aPrint version: García-León, Manuel Detecting Environmental Radioactivity Cham : Springer International Publishing AG,c2023 9783031099694 327 $aIntro -- Preface -- Contents -- 1 Radioactivity: History and Phenomenology -- 1.1 Basic Description of the Atomic Nucleus. Nuclear Stability -- 1.1.1 Simple Nuclear Models -- 1.1.2 Atomic and Mass Numbers. Isobars, Isotopes, and Isotone Nuclei -- 1.1.3 Unstable Nuclides -- 1.2 Discovery of Radioactivity -- 1.2.1 Some Historic Data -- 1.2.2 Phenomenology of Radioactivity -- 1.3 Types of Radioactivity -- 1.3.1 Alpha Radioactivity -- 1.3.2 Beta Radioactivity: Electrons, Positrons, and Electron Capture -- 1.3.3 Gamma Radioactivity: Electromagnetic Radiation, Conversion Electrons, and Isomers -- 1.3.4 Other Radioactivity Types: Double Beta Decay, Proton and Neutron Emissions, Exotic Radioactivity, Fission -- 1.4 X-rays. Auger Electrons -- References -- 2 Radioactivity: Decay Law, Definitions, and Units -- 2.1 Exponential Decay Law. Decay Constant, Half-Life and Mean-Life -- 2.2 Radioactive Activity and Units -- 2.2.1 Exponential Law of Activity -- 2.2.2 Becquerels and Curies -- 2.3 Radioactive Series -- 2.3.1 Bateman Equations -- 2.3.2 Transient and Secular Equilibria -- 2.4 Partial Activities. Branching Ratio and Intensity of Radiation -- 2.5 Decay Schemes -- References -- 3 Natural and Artificial Radioactivity -- 3.1 Primordial Radionuclides -- 3.1.1 Long-Lived Radionuclides -- 3.1.2 Natural Radioactive Series -- 3.2 Cosmogenic Radionuclides -- 3.2.1 Cosmic Radiation -- 3.2.2 Production of Radionuclides by Cosmic Radiation -- 3.3 Artificial Radionuclides -- 3.3.1 Some Historic Data -- 3.3.2 Production of Radionuclides in Accelerators -- 3.3.3 Production of Radionuclides in Nuclear Reactors -- References -- 4 Environmental Radioactivity -- 4.1 Presence of Natural Radioactivity in the Environment -- 4.1.1 Primordial Radionuclides -- 4.1.2 Cosmogenic Radionuclides -- 4.1.3 NORM Materials and Non-nuclear Industries. 327 $a4.2 Sources of Artificial Radionuclides -- 4.2.1 The Start of the Nuclear Era. The Bomb Pulse -- 4.2.2 Radioactive Fallout -- 4.2.3 Nuclear Fuel Reprocessing Plants -- 4.2.4 Other Nuclear Facilities and Activities: Nuclear Power Plants -- 4.2.5 Nuclear Accidents -- References -- 5 Levels and Behavior of Environmental Radioactivity -- 5.1 Dynamics of Radioactivity in the Environment -- 5.1.1 General Concepts of Radioecology -- 5.1.2 Radionuclide Speciation in the Environment -- 5.1.3 Exchange and Transport Processes. Transfer Parameters -- 5.1.4 Mathematical Modeling -- 5.2 Levels and Behavior of Radioactivity in the Atmosphere -- 5.2.1 Radioactivity in the Air -- 5.2.2 The Radon Problem -- 5.3 Levels and Behavior of Radioactivity in the Lithosphere. Radioactive Particles -- 5.3.1 Soils -- 5.3.2 Radioactive Particles -- 5.4 Levels and Behavior of Radioactivity in Fresh Waters -- 5.4.1 Rivers and Sediments -- 5.4.2 Lakes and Sediments -- 5.4.3 Groundwater -- 5.5 Levels and Behavior of Radioactivity in Oceans -- 5.5.1 Global Circulation -- 5.5.2 Seawater -- 5.5.3 Marine Sediments -- 5.6 Levels and Behavior of Radioactivity in the Biosphere -- 5.6.1 Plants, Animals -- 5.6.2 Seaweed and Other Marine Bioindicators -- 5.7 Levels and Behavior of Radioactivity in Foods -- 5.7.1 Drinking Water -- 5.7.2 Foodstuffs and Food Raw Materials -- References -- 6 Radiological Impact. Radiation Dosimetry -- 6.1 Radiation Dosimetry -- 6.1.1 Radiation Exposure, Absorbed Dose and Dose Equivalent: Magnitudes and Units -- 6.1.2 Effective and Committed Doses and Other Magnitudes -- 6.2 Biological Effects of Radioactivity -- 6.2.1 Stochastic and Deterministic Effects -- 6.2.2 Radiation Effects on Human Health -- 6.3 Radiological Impact -- 6.3.1 Radiation Protection Programs -- 6.3.2 Radiation Protection Regulations -- References. 327 $a7 Principles of Radiation Detection: Interaction of Radiation with Matter -- 7.1 Interaction of Gamma Radiation with Matter -- 7.1.1 Photoelectric Effect -- 7.1.2 Compton Effect -- 7.1.3 Pair Production -- 7.1.4 Attenuation and Absorption Coefficients -- 7.1.5 Designing Gamma Radiation Detectors -- 7.2 Interaction of Charged Particles with Matter -- 7.2.1 Ionization and Excitation -- 7.2.2 Stopping Power. The Bethe-Bloch Equation -- 7.2.3 Bremsstrahlung -- 7.2.4 Cherenkov Radiation -- 7.2.5 Range, Specific Ionization, and Bragg Curves -- 7.2.6 Designing Charged-Particle Detectors -- 7.3 Nuclear Reactions. Interaction of Neutrons with Matter -- 7.3.1 Nuclear Reactions with Neutrons -- 7.3.2 Path of Neutrons Through Matter -- 7.3.3 Designing Neutron Detectors -- References -- 8 Principles of Radiation Detection: Counting and Spectrometry -- 8.1 Introduction -- 8.2 Counting Efficiency -- 8.2.1 Absolute Efficiency -- 8.2.2 Partial Efficiencies. Photopeak Efficiency -- 8.3 Background of Detectors -- 8.3.1 Sources and Components -- 8.3.2 Background Corrections -- 8.4 Dead Time -- 8.4.1 Sources of Dead Time -- 8.4.2 Dead-Time Corrections -- 8.5 Energy Spectra -- 8.5.1 Components -- 8.5.2 Energy Resolution -- References -- 9 Gas Ionization Detectors -- 9.1 Physics of Gas Ionization Detectors -- 9.1.1 Ionization in Gases -- 9.1.2 Charge Transfer Reactions in Gases -- 9.1.3 Multiplication of Charge in Gases. Townsend Avalanche -- 9.2 Ionization Chamber -- 9.3 Proportional Counters -- 9.4 Geiger-Müller Counters -- 9.5 Radiation Counting and Spectrometry with Gas Ionization Detectors -- 9.6 Background in Gas Ionization Detectors -- References -- 10 Scintillation Detectors -- 10.1 Physics of Scintillation Detectors -- 10.1.1 Organic Scintillators -- 10.1.2 Inorganic Scintillators -- 10.1.3 Gas Scintillators -- 10.1.4 Photomultipliers. 327 $a10.2 Counting and Spectrometry with Scintillation Detectors -- 10.3 Gamma-Ray Spectrometry with Scintillation Detectors -- 10.3.1 Pulse Height Spectrum -- 10.3.2 Identification of Radionuclides and Activity Calculation -- 10.4 Counting and Spectrometry with Liquid Scintillation Detectors -- 10.4.1 Technical Aspects -- 10.4.2 Applications -- 10.5 Background in Scintillation Detectors -- References -- 11 Semiconductor Detectors -- 11.1 Physics of Semiconductor Detectors -- 11.1.1 Electron-hole Production -- 11.1.2 Energy Resolution -- 11.1.3 Types of Semiconductor Detectors -- 11.2 Gamma-Ray Spectrometry with Semiconductor Detectors -- 11.2.1 Pulse Height Spectrum -- 11.2.2 Identification of Radionuclides and Activity Calculation -- 11.3 Alpha- and Beta-Spectrometry with Semiconductor Detectors -- 11.3.1 Pulse Height Spectrum -- 11.3.2 Activity Determination -- 11.4 X-ray Spectrometry with Semiconductor Detectors -- 11.4.1 Pulse Height Spectrum -- 11.4.2 Activity Determination -- 11.5 Background in Semiconductor Detectors -- References -- 12 Dosimeters, Other Detectors, and Specific Designs -- 12.1 Dosimeters -- 12.1.1 Active Dosimeters -- 12.1.2 Passive Dosimeters -- 12.2 Track Detectors -- 12.3 ?E-E Telescopes -- 12.4 Time-Of-Flight Spectrometers -- 12.5 Cherenkov Detectors -- 12.5.1 Cherenkov Threshold Counters -- 12.5.2 Cherenkov Differential Detectors -- 12.5.3 Cherenkov Circular Image Detectors -- References -- 13 Radiochemistry for Environmental Samples -- 13.1 Sampling Techniques -- 13.1.1 Solid Samples -- 13.1.2 Liquid Samples -- 13.1.3 Atmospheric Samples -- 13.1.4 Biological Samples -- 13.2 Sample Transport and Storage -- 13.3 Chemical Procedures -- 13.3.1 Preconcentration Processes -- 13.3.2 Separation and Purification Procedures -- 13.3.3 Source Preparation for Counting and Spectrometry -- 13.4 Yield Determination. 327 $a13.5 Efficiency Calibration of Radiation Counters and Spectrometers -- 13.5.1 Calibration Curves for Charged Particles -- 13.5.2 Calibration Curves for Gamma Radiation -- 13.6 Speciation Studies -- 13.7 Quality Assurance -- References -- 14 Principles of Low-Level Counting and Spectrometry -- 14.1 Need of Low-Level Counting Techniques (LLC) -- 14.1.1 Levels of Radioactivity in the Environment -- 14.1.2 Problems Requiring LLC -- 14.2 Counting Statistics -- 14.2.1 The Random Nature of Radioactivity -- 14.2.2 Uncertainty Calculations in Radioactivity Measurements -- 14.3 Figure of Merit (FOM) -- 14.3.1 Definition and FOM Equation -- 14.3.2 Analysis of the FOM Equation -- 14.4 Generalized Figure of Merit -- 14.4.1 Definition and Equation -- 14.4.2 Analysis of the Equation -- 14.5 Designing an LLC Experiment -- 14.5.1 Sampling Strategy -- 14.5.2 Counting or Spectrometry, or Both -- 14.6 Limit of Detection and Minimum Detectable Activity -- References -- 15 Low-Level Counting and Spectrometry Techniques -- 15.1 Techniques for Detector Background Suppression -- 15.1.1 Passive Shielding -- 15.1.2 Active Shielding -- 15.1.3 Underground Laboratories -- 15.2 Techniques for Increasing Counting Efficiency -- 15.2.1 External Counting and Spectrometry -- 15.2.2 Internal Counting and Spectrometry -- 15.2.3 Radiation Coincidence Techniques -- References -- 16 Principles of Mass Spectrometry -- 16.1 Limitations of Radiometric Methods. Need for Mass Spectrometry Techniques -- 16.1.1 Loss of Information by Counting Emitted Radiation -- 16.1.2 Counting Atoms Instead of Emitted Radiation -- 16.2 Basics of Mass Spectrometry -- 16.2.1 Electrostatic and Magnetic Rigidity -- 16.2.2 The Mass-Energy Plane -- 16.2.3 The Dynamic Approach -- 16.3 Low-Energy Mass Spectrometers: TIMS, SIMS, GDMS, RIMS, ICP?MS -- 16.4 Applications to Environmental Radioactivity -- References -- 17 Principles of Particle Accelerators. 330 $aThis textbook presents the principles and methods for the measurement of radioactivity in the environment. In this regard, specific low-level radiation counting and spectrometry or mass spectrometry techniques are discussed, including sources, distribution, levels and dynamics of radioactivity in nature. The author gives an accurate description of the fundamental concepts and laws of radioactivity as well as the different types of detectors and mass spectrometers needed for detection. Special attention is paid to scintillators, semiconductor detectors, and gas ionization detectors. In order to explain radiochemistry, some concepts about chemical separations are introduced as well. The book is meant for graduate and advanced undergraduate students in physics, chemistry or engineering oriented to environmental sciences, and to other disciplines where monitoring of the environment and its management is of great interest. 410 0$aGraduate texts in physics 606 $aRadiation, Background$xMeasurement 606 $aRadioactive pollution$xMeasurement 615 0$aRadiation, Background$xMeasurement. 615 0$aRadioactive pollution$xMeasurement. 676 $a294.33653 700 $aGarci?a-Leo?n$b M$g(Manuel)$01270942 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 912 $a996499859803316 996 $aDetecting Environmental Radioactivity$92993926 997 $aUNISA