Health physics - WikipediaNot a MyNAP member yet? Register for a free account to start saving and receiving special member only perks. This chapter provides basic information about the motivation for and the conduct of the study summarized in this report, beginning with an overview of the issues related to the health effects of exposure to low-dose ionizing radiation and the interest of the organization that requested the report—the Uniformed Services University of the Health Sciences USUHS of the U. Department of Defense DoD —on this subject. Any discussion of low-dose radiation health effects requires defining what low means. This definition is intended to roughly describe the dose below which there is scientific uncertainty about the associated radiation health effects.
Health physics is the applied physics of radiation protection for health and health care purposes. It is the science concerned with the recognition, evaluation, and control of health hazards to permit the safe use and application of ionizing radiation. Health physics professionals promote excellence in the science and practice of radiation protection and safety. Health physicists principally work at facilities where radionuclides or other sources of ionizing radiation such as X-ray generators are used or produced; these include hospitals, government laboratories, academic and research institutions, nuclear power plants, regulatory agencies, and manufacturing plants. There are many sub-specialties in the field of health physics,  including.
This site contains information for both prospective and currrent Certified Health Physicists CHPs regarding the certification process and maintenance of certification. Links to the application form will be available at the bottom of this page. Since , the Board has annually recognized an individual for contributions to Certification and the Advancement of Professionalism in Health Physics. For the Part II Exam, candidates who fail to receive a minimum of points out of available will not be permitted to take the Part II exam in the following year. This requirement does not apply to candidates in their sixth and final year of eligibility since passing the Part I exam.
It features more than worked examples illustrating concepts under discussion along with in-depth coverage of sources of radiation, standards and regulations, biological effects of ionizing radiation, instrumentation, external and internal dosimetry, counting statistics, monitoring and interpretations, operational health physics, transportation and waste, nuclear emergencies, and more. Reflecting for the first time the true scope of health physics at an introductory level, Basic Health Physics: Problems and Solutions gives readers the tools to properly evaluate challenging situations in all areas of radiation protection, including medical, university, power reactor, fuel cycle, research reactor, environmental, nonionizing radiation, and accelerator health physics. Written by a former chairman of the American Board of Health Physics Comprehensive Panel of Examiners with more than 20 years of professional and academic experience in the field, it offers a balanced presentation of all the theoretical and practical issues essential for a full working knowledge of radiation exposure assessments. As the only book to cover the entire radiation protection field, it includes detailed coverage of the medical, university, reactor, fuel cycle, environmental, and accelerator areas, while exploring key topics in radiation basics, external and internal dosimetry, the biological effects of ionizing radiation, and much more besides. Backed by more than worked examples developed within the context of various scenarios and spanning the full spectrum of real-world challenges, it quickly instills in readers the professional acumen and practical skills they need to perform accurate radiation assessments in virtually any routine or emergency situation. The result is a valuable resource for upper-level students and anyone preparing to take the American Board of Health Physics Comprehensive Examination Part II, as well as for professionals seeking to expand their scope and sharpen their skills. As such, this monograph discusses those technologies that will affect the health physics and radiation protection profession over the decades to come.