Ball and Moore’s Essential Physics for Radiographers
Since its first edition in 1980, Essential Physics for Radiographers has earned an international reputation as a clear and straightforward introduction to the physics of radiography. Now in its fourth edition, this book remains a core textbook for student radiographers.brbrThe authors have retained the pragmatic approach of earlier editions and continue to target the book particularly at those students who find physics a difficult subject to grasp. The fourth edition builds on the major revisions introduced in the third edition. The content has been updated to reflect recent advances in imaging technology. The chapter on Radiation Safety has been completely rewritten in the light of the latest changes in relevant legislation, and a re-examination of the physical principles underpinning magnetic resonance imaging forms the basis of a new chapter. Worked examples and calculations again feature strongly, and the innovative and popular Maths Help File, guides readers gently through the mathematical steps and concepts involved. The reference citations have been updated and now include Internet sources.1. General Physics.p2. Internal Energy, Temperature and Heat.p3. Electricity.p4. Atomic Structure.p5. Electric Charge and Potential.p6. Conduction and Storage of Electric Charges.p7. Current Electricity.p8. Magnetism, Electromagnetism and Magnetic Resonance.p9. Electromagnetic Induction.p10. Alternating Current.p11. Thermionic Emission.p12. X-ray Tubes.p13. Solid State Devices.p14. Electromagnetic Radiation.p15. Light.p16. X-rays.p17. Interaction of X-rays and Gamma Rays with Matter.p18. X-ray and Gamma Ray Interaction with Tissues.p19. X-ray and Gamma Ray Measurements (Dosimetry).p20. Radioactivity and Radionuclide Imaging.p21. Radiation Safety.p22. Ultrasound.p23. Magnetic Resonance Imaging.piMaths Help File/ibJohn Ball/b is former Principal at the South West Wales School of Radiography, Swansea.brbProfessor Ad@Bâ¬