John Wiley & Sons Student Solutions Manual to accompany Radiation Detection and Measurement, 4e Cover Contains solutions to odd-numbered problems from the textbook by Glenn Knoll, Radiation Detection an.. Product #: 978-0-470-64972-5 Regular price: $63.46 $63.46 In Stock

Student Solutions Manual to accompany Radiation Detection and Measurement, 4e

Knoll, Glenn F.

Cover

4. Edition July 2012
96 Pages, Softcover
Wiley & Sons Ltd

ISBN: 978-0-470-64972-5
John Wiley & Sons

Contains solutions to odd-numbered problems from the textbook by Glenn Knoll, Radiation Detection and Measurement, 4th edition, as well as solutions for additional Supplemental Problems, developed by David Wehe.

Chapter 1 Radiation Sources 1

Chapter 2 Radiation Interactions 29

Chapter 3 Counting Statistics and Error Prediction 65

Chapter 4 General Properties of Radiation Detectors 103

Chapter 5 Ionization Chambers 129

Chapter 6 Proportional Counters 159

Chapter 7 Geiger-Mueller Counters 201

Chapter 8 Scintillation Detector Principles 219

Chapter 9 Photomultiplier Tubes and Photodiodes 265

Chapter 10 Radiation Spectroscopy with Scintillators 307

Chapter 11 Semiconductor Diode Detectors 353

Chapter 12 Germanium Gamma-Ray Detectors 405

Chapter 13 Other Solid-state Detectors 457

Chapter 14 Slow Neutron Detection Methods 505

Chapter 15 Fast Neutron Detection and Spectroscopy 537

Chapter 16 Pulse Processing and Shaping 577

Chapter 17 Linear and Logic Pulse Functions 605

Chapter 18 Multichannel Pulse Analysis 685

Chapter 19 Miscellaneous Detector Types 711

Chapter 20 Background and Detector Shielding 757

Appendix A The NIM and CAMAC Instrumentation Standards 777

Appendix B Derivation of the Expression for Sample Variance in Chapter 3 783

Appendix C Statistical Behavior of Counting Data for Variable Mean Value 785

Appendix D The Shockley-Ramo Theorem for Induced Charge 789

List of Tables 795

Index 796
Glenn F. Knoll is the author of Student Solutions Manual to accompany Radiation Detection and Measurement, 4e, published by Wiley.

G. F. Knoll, University of Michigan, Ann Arbor