Research Article
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Year 2021, Volume: 42 Issue: 2, 434 - 440, 30.06.2021
https://doi.org/10.17776/csj.857930

Abstract

References

  • [1] ThePhysicsHypertextbook, Radiobiology. Available at: https://physics.info/radiobiology/. Retrieved December 21, 2019.
  • [2] Sont W.N., Zielinski J.M. and Ashmore J.P., First analysis of cancer incidence and occupational radiation exposure based on the National Dose Registry of Canada, Am J Epidemiol., 153 (2001) 309–318.
  • [3] Jacob K., Vivian G. and Steel J.R., X-ray Dose Training: Are We Exposed to Enough?, Clinical Radiology., 59 (2004) 928-934.
  • [4] Dourish P., Bellotti V., Awareness and Coordination in Shared Workspaces, CSCW '92 Proceedings of the 1992 ACM Conference on Computer-Supported Cooperative Work., (1992) 107-114
  • [5] Rietveld T., Van Hout R., Statistical Techniques for the Study of Language and Language Behaviour, Berlin, New York: Mouton de Gruyter, (1993).
  • [6] Lance C.E., Vandenberg R.J., Confirmatory factor analysis, In F. Drasgow & N, 2002, Schmitt (Eds.), The Jossey-Bass business & management series, Measuring and analyzing behavior in organizations: Advances in measurement and data analysis, Jossey-Bass., (2002) 221–254.
  • [7] Reisinger Y., Turner L., Structural equation modeling with LISREL: Application in tourism, Tourism Management., 20 (1999) 71-88.
  • [8] Schermelleh-Engel K., Moosbrugger H., Evaluating the Fit of Structural Equation Models: Tests of Significance and Descriptive Goodness-of-Fit Measures, Methods of Psychological Research Online., 8 (2003) 23-74.

Examination of effects of radiation awareness on protection from radiation via structural equation modeling

Year 2021, Volume: 42 Issue: 2, 434 - 440, 30.06.2021
https://doi.org/10.17776/csj.857930

Abstract

This study aims to determine the radiation awareness levels and radiation protection information of university students and to model the effects of radiation awareness levels on radiation protection information. For this purpose, a questionnaire both including the demographic features and the scale is applied to 580 university students to obtain the data set. The data set is analyzed by Explanatory Factor Analysis (EFA), Confirmatory Factor Analysis (CFA), Structural Equation Modeling (SEM). As the results of EFA, while four dimensions for Radiation awareness are determined and they are named; Physics Knowledge, Technical Device Knowledge, Professional Knowledge and Radiation Security Knowledge respectively, Radiation protection knowledge determined in a single dimension. As well as the Physics Knowledge has the greatest effect, Radiation Security Knowledge and Technical Device Knowledge have statistically significant effects on radiation protection information of the students. Improving Physics Knowledge, Radiation Security Knowledge and Technical Device Knowledge via some extra seminars, giving theoretical and applied educations should improve radiation protection information of these students. Even if the results indicate that Professional Knowledge does not have statistically significant effect on radiation protection information, it has an indirect effect. Some improvements about this sub-factor may also improve the radiation protection information. As "entering to radiation areas needs attention" has a direct and significant effect on radiation protection information, the importance of this situation must keep its priority and theoretical and applied educations must be in progress. 

References

  • [1] ThePhysicsHypertextbook, Radiobiology. Available at: https://physics.info/radiobiology/. Retrieved December 21, 2019.
  • [2] Sont W.N., Zielinski J.M. and Ashmore J.P., First analysis of cancer incidence and occupational radiation exposure based on the National Dose Registry of Canada, Am J Epidemiol., 153 (2001) 309–318.
  • [3] Jacob K., Vivian G. and Steel J.R., X-ray Dose Training: Are We Exposed to Enough?, Clinical Radiology., 59 (2004) 928-934.
  • [4] Dourish P., Bellotti V., Awareness and Coordination in Shared Workspaces, CSCW '92 Proceedings of the 1992 ACM Conference on Computer-Supported Cooperative Work., (1992) 107-114
  • [5] Rietveld T., Van Hout R., Statistical Techniques for the Study of Language and Language Behaviour, Berlin, New York: Mouton de Gruyter, (1993).
  • [6] Lance C.E., Vandenberg R.J., Confirmatory factor analysis, In F. Drasgow & N, 2002, Schmitt (Eds.), The Jossey-Bass business & management series, Measuring and analyzing behavior in organizations: Advances in measurement and data analysis, Jossey-Bass., (2002) 221–254.
  • [7] Reisinger Y., Turner L., Structural equation modeling with LISREL: Application in tourism, Tourism Management., 20 (1999) 71-88.
  • [8] Schermelleh-Engel K., Moosbrugger H., Evaluating the Fit of Structural Equation Models: Tests of Significance and Descriptive Goodness-of-Fit Measures, Methods of Psychological Research Online., 8 (2003) 23-74.
There are 8 citations in total.

Details

Primary Language English
Subjects Statistics
Journal Section Natural Sciences
Authors

Sinan Saraçlı 0000-0003-4662-8031

Olcay Ulucan 0000-0002-1388-2896

Publication Date June 30, 2021
Submission Date January 13, 2021
Acceptance Date May 5, 2021
Published in Issue Year 2021Volume: 42 Issue: 2

Cite

APA Saraçlı, S., & Ulucan, O. (2021). Examination of effects of radiation awareness on protection from radiation via structural equation modeling. Cumhuriyet Science Journal, 42(2), 434-440. https://doi.org/10.17776/csj.857930