Operational Health Physics II – Air Sampling, Internal Dosimetry, Neutrons, Decommissioning, Waste, Non-Ionizing, and Transportation
Third of the three required self-paced training modules as part of the new blended Applied Health Physics course
ORAU's Professional Training Programs (PTP) is now offering a new way to experience the traditional five-week Applied Health Physics course that is offered at our training facilities in Oak Ridge, Tennessee. We are now offering a blended course that contains both online and in-class training. The lecture materials will be delivered online via self-paced modules and webcasts. The laboratory exercises will be delivered in-class at the ORAU PTP training facility in Oak Ridge, Tennessee, when it is deemed safe to do so by employing safe distancing, smaller lab groups, and disinfection protocols.
This option greatly reduces the on-site presence of the participant and the costs of travel, lodging, and per diem, while presenting all of the great instructional topics and content you have come to expect in the five-week course. The American Academy of Health Physics grants 40 Continuing Education Credits for completion of this course.
The Operational Health Physics II – Air Sampling, Internal Dosimetry, Neutrons, Decommissioning, Waste, Non-Ionizing, and Transportation course is self-paced and can be completed as time allows. The course includes 14 modules and 10 webcasts. In order to complete the course, you will be required to pass an exam. A passing score is 70 out of 100. You will have three attempts to successfully complete the exam. Upon successful completion of the exam, a course certificate of completion will be provided. Course materials are available on the ORAU PTP Learning Management System (LMS).
This course will be supported by weekly Q&A sessions via webinar to allow participants to ask questions and discuss difficult concepts with the course instructors.
This course is the third of the three required self-paced training modules as part of the new blended Applied Health Physics course. Successful completion of Applied Health Physics I – Fundamental Concepts and Detector Technologies and Operational Health Physics I – Instrumentation Calibration, Preparation, and Use, Radiation in Industry, and External Dosimetry is required before beginning this course and all three online courses are required before beginning the in-person laboratory exercises. The full requirements of the Applied Health Physics five-week course curriculum (and required order of completion) are listed below:
- Applied Health Physics I – Fundamental Concepts and Detector Technologies
- Operational Health Physics I – Instrumentation Calibration, Preparation, and Use, Radiation in Industry, and External Dosimetry
- Operational Health Physics II – Air Sampling, Internal Dosimetry, Neutrons, Decommissioning, Waste, Non-Ionizing, and Transportation)
- Applied Health Physics – Laboratory Exercises I
- Applied Health Physics – Laboratory Exercises II
Any person needing training in health physics and radiation protection should complete this course. Attendees should have some training in mathematics, including algebra, and have experience using a calculator with scientific functions.
$1,999 – The tuition includes access to the course materials via the ORAU Learning Management System (LMS).
Note: Registration is now available for this course, but the curriculum is still in final development. Registrants will be notified as soon as the course is available.
If you have additional questions about this course, please contact the Registrar.
These are asynchronous (self-paced) online courses. The training staff recommends that you complete the training within six months of enrollment. Once registration is complete, you will receive an email confirming that your registration has been received. Once your payment has been confirmed, you will receive an email containing your user name and temporary password if this is the first time you have registered for an online course. If you have registered before, you will receive notification that the course is now available.
Each course contains a series of modules/exercises to be completed. When all modules are complete, you will be granted access to the exam. A passing score is 70 out of 100. You will have three attempts to successfully complete the exam. Upon successful completion of the exam, a course certificate of completion will be provided.
Please read the following carefully and in its entirety. You must accept these terms and conditions in order to be successfully enrolled in the online course. By accepting these terms and conditions, you are legally obligated to act in accordance with this agreement.
Restricted Materials Use Agreement
By registering for this course offered by Oak Ridge Associated Universities (ORAU), I understand that I will be provided with ORAU PTP course materials developed by ORAU. In exchange for receiving these materials, I agree and understand that the ORAU PTP course materials (both electronic and hardcopy) are provided for use by the registered participant only. Duplication and/or distribution of the course materials, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, is strictly prohibited without the prior written permission of ORAU. The participant may retain and use the course materials for personal reference in perpetuity. Publications and other copyrighted materials provided during the course may be subject to additional restrictions as noted within these documents.
Cancellations and Refunds
Once access to the course material (LMS) has been granted, no refunds or cancellations will be accepted.
Links to Third Party Websites
PTP's Online Training may include links to third party websites that are controlled and maintained by other organizations. Any link to third-party websites is not an endorsement of said websites and ORAU is not responsible for the content or availability of any such sites.
Sessions that contain webinars will be recorded.
- Module 1: Transient and Secular Equilibrium
- Module 2: Radon and Its Decay Products
- Module 3: Air Sampling Introduction
- Module 4: Air Sampling Equations
- Module 5: Air Sampling in the Workplace
- Module 6: Fume Hood Design and Testing (Webcast)
- Module 7: Stack Sampling
- Module 8: Atmospheric Dispersion (Webcast)
- Module 9: Introduction to Internal Dosimetry Part 1
- Module 10: Introduction to Internal Dosimetry Part 2
- Module 11: Introduction to Internal Dosimetry Part 3
- Module 12: Bioassay Interpretation
- Module 13: Respiratory Protection (Webcast)
- Module 14: Introduction to Non-Ionizing Radiation (Webcast)
- Module 15: Neutron Sources
- Module 16: Interaction of Neutrons with Matter
- Module 17: Neutron Activation and Analysis
- Module 18: Neutron Detectors – General Concepts
- Module 19: Neutron Detectors – Specific Applications
- Module 20: Radionuclide Pathways
- Module 21: Environmental Surveillance (Monitoring) Programs
- Module 22: Radiological Survey Types in Support of Decommissioning
- Module 23: Radioactive Waste
- Module 24: Transportation of Radioactive Materials