Displaying all 5 results
- Conference Session
- Nuclear and Radiological Division Technical Session 1
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Robert Prins, United States Military Academy; Bryndol A. Sones, United States Military Academy; Daniel Schlich , U.S. Army Corps of Engineers
- Tagged Divisions
- Nuclear and Radiological
Paper ID #14182Application-based learning, a nuclear experimental laboratory in a field en-vironmentLt. Col. Robert Prins, United States Military Academy Lieutenant Colonel Robert Prins is an assistant professor in the United States Military Academy Depart- ment of Physics and Nuclear Engineering. LTC Prins teaches both Radiation Shielding and Instrumenta- tion and Radiological Safety. LTC Prins’ role in the Army is that of a Nuclear Medical Science Officer.Prof. Bryndol A. Sones, U.S. Military Academy Colonel Bryndol Sones directs the Nuclear Engineering Program at West Point. He has a Ph.D. in Nu- clear Engineering from
- Conference Session
- Nuclear and Radiological Division Technical Session 1
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Masoud Naghedolfeizi, Fort Valley State University; Sanjeev Arora, Fort Valley State University
- Tagged Divisions
- Nuclear and Radiological
been instrumental in acquiring, through various grants, computers, and software for the physics laboratory at FVSU. Some of his funded grant proposals are as follows: 1) Establishing a Nuclear Science and Engineering Minor at Fort Valley State University 2) Establishing an Undergraduate STEM Teaching and Research Laboratory at FVSU 3)Establishing an Interdisciplinary Bioinformatics Laboratory at Fort Valley State University 3) Computer-based Instrumentation Laboratory for Undergraduate Science and Mathematics Programs at the Department of Mathematics and Computer Science Fort Valley State University. 4) Developing an Undergraduate Minor in Computer-based Mea- surement and Instrumentation at Fort Valley State
- Conference Session
- Nuclear and Radiological Division Technical Session 1
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Thomas E. Adams, NSWC Crane / Purdue University, West Lafayette; Shripad T. Revankar, Purdue University, West Lafayette
- Tagged Divisions
- Nuclear and Radiological
able toachieve efficiencies above 1% [2, 7]. The most promising effort in betavoltaics occurred in ca.1974 through research led by Olsen at the Donald W. Douglas Laboratories [8, 9]. The Betacelbattery, shown in Figure 5, exhibited 400 µW and a 4% efficiency using 147Pm and silicon p-njunctions. The Betacel was used in pacemakers that were implanted in over 285 patients, 60inside the United States. German and U.S. medical institutions were seriously considering theBetacel for wider use. The United States Atomic Energy Commission (USAEC) had authorizedthe licensing of 50 Betacel pacemakers per month [10]. However, strides in lithium batterydevelopment entered onto the scene and were subsequently selected for pacemakers instead [3
- Conference Session
- Nuclear and Radiological Division Technical Session 1
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Bryndol A. Sones, United States Military Academy
- Tagged Divisions
- Nuclear and Radiological
responsibility forassessment of certain Student Outcomes each time that the course is taught andthis data is integrated into a program level evaluation of the curriculum. Likeother programs, embedded indictors include tests, laboratories, papers,presentations, and projects. What follows are some unique ideas for assessing thestudent outcomes. Each of these is a graded event in the NE Capstone Course,NE495/496. They include (1) Student Outcome Essays to assess studentperspectives on their attainment of ABET Student Outcomes a-k, (2) CapstoneProject Elevator Pitch to convey a broad perspective of the engineeringenvironment ABET Student Outcomes h, (3) an Oral Examination to assessstudent dedication to continued learning Student Outcomes i, and (4) a
- Conference Session
- Nuclear and Radiological Division Technical Session 1
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Yaël-Alexandra Jackie Monereau, Elyape Consulting, LLLP; University of Tennessee
- Tagged Divisions
- Nuclear and Radiological
and research stages inthe Medical fields and have shown enormous amounts of yielding tremendous outcomes. As theworld of AR and VR crosses more and more thresholds, cross-industry discoveries haveincreased as a result of a more inclusive educational focus.Many studies have shown the strides in medical sciences, highlighting the amount of abilitieslearned through avidly participating in the learning. Figure 9 Mixed Reality used in the Medical Field [7]Even though the results from the medical field are growing exponentially, there are great leaps infields even more closely related to the Nuclear Engineering realm. For example in MiningEngineering, a “Virtual Reality Laboratory” consists of a 360-degree screen [of an