Description

Book Synopsis
All radiologists need a thorough understanding of the principles of physics underlying the equipment the use. Radiodiagnosis embraces a range of equipment using ever more sophisticated physical properties. Increasing emphasis is being placed on physics in all postgraduate examinations in radiology. This book provides in a concise and comprehensive format the principles of physics necessary for an understanding of modern radiodiagnosis. It is an examination oriented book intended for all studying for postgraduate examinations in radiodiagnosis.

Table of Contents
Atomic structure and radioactivity; the production of X-rays; X-ray generating apparatus; interactions between X-rays and matter; Dosimetry; films and screens; image quality; fluoroscopy; special techniques; computed tomography; ultrasound; radionuclide imaging; magnetic resonance imaging; quality control; radiation protection.

Lecture Notes on the Physics of Radiology

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    A Paperback / softback by Susan J Armstrong, Professor Peter Wells

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      View other formats and editions of Lecture Notes on the Physics of Radiology by Susan J Armstrong

      Publisher: Clinical Press Ltd
      Publication Date: 01/04/1990
      ISBN13: 9781854570109, 978-1854570109
      ISBN10: 1854570102
      Also in:
      Medical imaging: radiology

      Description

      Book Synopsis
      All radiologists need a thorough understanding of the principles of physics underlying the equipment the use. Radiodiagnosis embraces a range of equipment using ever more sophisticated physical properties. Increasing emphasis is being placed on physics in all postgraduate examinations in radiology. This book provides in a concise and comprehensive format the principles of physics necessary for an understanding of modern radiodiagnosis. It is an examination oriented book intended for all studying for postgraduate examinations in radiodiagnosis.

      Table of Contents
      Atomic structure and radioactivity; the production of X-rays; X-ray generating apparatus; interactions between X-rays and matter; Dosimetry; films and screens; image quality; fluoroscopy; special techniques; computed tomography; ultrasound; radionuclide imaging; magnetic resonance imaging; quality control; radiation protection.

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