TY - JOUR

T1 - A teaching concept for school experiments on radioactivity using augmented reality methods

AU - Schuette, Charlotte

AU - Streuber, Marcus

AU - Pottgiesser, Vivien

AU - Preim, Bernhard

AU - Saalfeld, Patrick

AU - Vahlbruch, Jan Willem

AU - Walther, Clemens

N1 - Funding Information: The project leading to this application has received funding from the Euratom Research and Training Program 2014–2018 under grant agreement No 945301.

PY - 2023/6

Y1 - 2023/6

N2 - Digital media are becoming increasingly influential in society, especially among the younger generation. Therefore, an augmented reality (AR) app was developed that simulates experiments with radioactive sources. The app runs experiments on the range and penetration power of alpha, beta and gamma radiation. It assigns virtual radiation sources, shielding materials or a detector to printed image markers, and superimposes their 3D images on the camera image. Alpha, beta and gamma radiation are clearly distinguishable by choosing different visualizations. The detector displays the measured count rates. At school, the app can be used in different ways. A concept for a teaching unit in Grade 10 was developed and tested in several classes based on a prototype of the app. The learning progress from the AR experiments was examined. Furthermore, an evaluation of the app was carried out. The most recent version of the app can be found here: https://seafile.projekt.uni-hannover.de/d/dd033aaaf5df4ec18362/

AB - Digital media are becoming increasingly influential in society, especially among the younger generation. Therefore, an augmented reality (AR) app was developed that simulates experiments with radioactive sources. The app runs experiments on the range and penetration power of alpha, beta and gamma radiation. It assigns virtual radiation sources, shielding materials or a detector to printed image markers, and superimposes their 3D images on the camera image. Alpha, beta and gamma radiation are clearly distinguishable by choosing different visualizations. The detector displays the measured count rates. At school, the app can be used in different ways. A concept for a teaching unit in Grade 10 was developed and tested in several classes based on a prototype of the app. The learning progress from the AR experiments was examined. Furthermore, an evaluation of the app was carried out. The most recent version of the app can be found here: https://seafile.projekt.uni-hannover.de/d/dd033aaaf5df4ec18362/

UR - http://www.scopus.com/inward/record.url?scp=85160152854&partnerID=8YFLogxK

U2 - 10.1093/rpd/ncad071

DO - 10.1093/rpd/ncad071

M3 - Article

C2 - 37225217

AN - SCOPUS:85160152854

VL - 199

SP - 716

EP - 724

JO - Radiation protection dosimetry

JF - Radiation protection dosimetry

SN - 0144-8420

IS - 8-9

ER -