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Role of Protein Vibration in Convergent and Divergent Thinking with Respect to Student’s Performances

DOI: 10.4236/oalib.1103645, PP. 1-15

Subject Areas: Education, Psychology

Keywords: Convergent Thinking, Divergent Thinking, Creative Activity, Protein Vibration, EEG Rhythms, Null Hypothesis

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Abstract

The paper focuses on the performances of the Students in Scholastic achievement as well as in creative activities. The performances of the students in creative activities have been analyzed statistically. These result in categorizing the Students in Convergent group and Divergent group. This classification is also supported by the role played by some memory related proteins. The role of protein has been considered here in the context of protein vibration approach. Our results of protein vibration approach are found to be compatible with those investigated by R Olga with EEG rhythms. The paper also suggests on the quality improvement of the students of Indian Schools by involving them in creative activities along with normal class content.

Cite this paper

Majumder, B. and Majumder, A. (2017). Role of Protein Vibration in Convergent and Divergent Thinking with Respect to Student’s Performances. Open Access Library Journal, 4, e3645. doi: http://dx.doi.org/10.4236/oalib.1103645.

References

[1]  Burton, W.H. Education for Effective Thinking and Others
[2]  Kaffaka. Growth of Mind.
[3]  Sara, L. (2012) Critical Thinking in Problem Solving; A Perspective for the Language Arts Teacher. Retrieved 1 April.
[4]  Good Friend, W. Lesson Transcript. Collected from Net.
[5]  (2009) Strategies of Divergent Thinking. University of Washington. Retrieved June.
[6]  Razoumnikov, O.M. (2000) Function Organization of Different Brain Aries during Convergent and Divergent Thinking: An EEG Investigation. Cognitive Brain Research, 10, 11-18.
https://doi.org/10.1016/S0926-6410(00)00017-3
[7]  Majumder, B.G. and De, U.C. (2013) Role of Protein Vibration in Learning and Memory—A Mathematical Approach. International Journal of Biophysics, 3, 33-37.
[8]  Bobsky, E.B. and Khodorov, B.I. (1975) Human Physiology. MIR Publication and Co. and Others, Moscow, 2, 274.
[9]  Kovalyoba, A. (1990) Mapping Memory’s Track. Science USSR, 4, 95-96.
[10]  Gotze, W. and Sjogren, L. (1992) Relaxation Processes in Super Cooled Liquids. Reports on Progress in Physics, 55, 241-376.
[11]  Barrow, E.B., Khodorov, B.I., Kosisky, G.I., et al. (1975) Human Physiology. Vol., 2, MIR Publication and Co., Moscow, 274.
[12]  Majumder, B.G. (2014) Smelling: A Pathway to Instant Memory. International of Biophysics, 4, 16-22.
Majumder, B.G. (2015) Role of Protein Vibration in Emotion, Attention, Learning and Memory. International of Biophysics, 5, 1-11.
[13]  Majumder, B.G. and De U.C. (2016) Vibration Characteristics of Misfolded Proteins and Their Consequences. International Journal of Biochemistry and Biophysics, 4, 4-9.
Majumder, B.G. (2016) An Analytical Approach to Anti-Parkinsonian Effect of Bacopa Monnari in the Context of Protein Vibration. International Journal of Biochemistry and Biophysics, 6, 21-25.
[14]  Gupta, S.C. and Kapoor, V.K. (1997) Fundamentals of Mathematical Statistics. Sultan Chand and Sons, New Delhi, 11.23-12.23.
[15]  De Dreu, C.K.W., De Vries, N.K., Gordijn, E.H. and Schuurman, M.S. (1999) Convergent and Divergent Processing of Majority and Minority Arguments: Effects on Focal and Related Attitudes. European Journal of Social Psychology, 29, 329-348.
https://doi.org/10.1002/(SICI)1099-0992(199903/05)29:2/3<329::AID-EJSP930>3.0.CO;2-6

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