A program based on Successful Intelligence in teaching geometry on developing Geometrical proficiency and level of academic ambition of preparatory stage pupils.

Abdelaal, Heba; Sawy, Yahia

doi:10.21608/jsre.2021.146894

A program based on Successful Intelligence in teaching geometry on developing Geometrical proficiency and level of academic ambition of preparatory stage pupils.

Document Type : Original Article

Authors

Heba Abdelaal ¹
yahia sawy ²

¹ Ain shams university - faculty of education

² faculty of education, Ain shams university

10.21608/jsre.2021.146894

Abstract

Abstract

The current research aimed at investigating the effect of program based on Successful Intelligence in teaching geometry on developing Geometrical proficiency and level of academic ambition of preparatory stage pupils. In this context, the researcher prepared a program based on successful intelligence, Also, prepare the evaluation tools: which represented in a mathematical proficiency test (in the first four dimensions of geometrical proficiency), the measure of productive disposition (in the fifth dimension thereof), and the academic ambition scale, The research group consisted of (32) pupils from the 3rd year primary pupils at (Sarai El-kobba preparatory school).
Results concluded that:
- There is a statistically significant differences at the level of 0.05 between the means of student’s degrees in the Pre &post applications of the geometrical proficiency test for the post application.
- There is a statistically significant differences at the level of 0.05 between the means of student’s degrees in the Pre &post applications of the Productive Disposition scale for the post application.
- There is a statistically significant differences at the level of 0.05 between the means of teacher’s degrees in the Pre &post applications of level of academic ambition scale for the post application.

Keywords

Main Subjects

Curriculum and methods of teaching

References

- .

- Alioto, N. (2017). Differences in Styles of Thinking ‘In Light of Sternberg's Theory': A Case Study of Different Educational Levels in Saudi Arabia, Journal of Technology and Science Education, 7(3): 333-346.

- Amabile, T, M.(2012) .Componential Theory of Creativity, Harvard Business School Working Paper, No. 12-096, April 2012.

- Anwar, Blessytha, Mumthas, N (2014). Taking triarchic teaching to classrooms: giving everybody a fair chance, International Journal of Advanced Research, 2(5). 455-458.

- Boulet, L. (2007). Coping strategies and Successful Intelligence in Adult with Learning Disabilities unpublished master’s Dissertation, Canada: Mount Saint Uincent University.

- Chan, D. (2008). Teacher self‐efficacy and successful intelligence among Chinese secondary school teachers in Hong Kong, An International Journal of Experimental Educational Psychology, 28(7), 735-746. Retrieved From : https://doi.org/10.1080/01443410802259246

- Chang, M., Evans, M., Kim, S., Norton, A., & Samur, Y. (2015). Differential Effects of Learning Games on Mathematics Proficiency. Educational Media International. 52(1). 47-57. ERIC Number: EJ1053706.

- Dillon, A., Doty, P. (2012). Extending information studies to the education of open source information analysts, Journal of the Global Homeland Security Education Network, 1(1),75–87.

Retrieved from: http://www.ischool.utexas. edu/~adillon/Dillon&Doty2012.pdf.

- Driver, R.)2013). Making Sense of Secondary Science, Journal of Science Education, 3(4), 85-99.

- Fauteux, M., Zapata, R.(2014). Building Geometry Proficiency, Retrieved from https://www.ck12.org/section/building-geometry-proficiency/, available in 26-6-2020.

- Fitzsimmons, P. & et al (2017). Why is proficiency-based learning important? Retrieved from://www.education.vermont.gov/sites/aoe/files/document/edu-proficiency-based-education-why is- proficiency-based-learning-important-pdf.

- Groves, S. (2012). Developing Mathematical proficiency. Journal of Science and Mathematics, Education in Southeast Asia, 35(2), pp 119-145.

- Kolb, Alice Y & Kolb, David A (2011). Experiential Learning Theory: A Dynamic, Holistic Approach to Management Learning, Handbook of Management Learning, Education and Development,42 – 68. DOI: 10.4135/9780857021038.n3.

- Muammar, O.M. (2006). An integration of two competing models to explain practical intelligence, ph. D., USA: The University of Arizona.

- Ekinci, B. (2014). The relationships among Sternberg's Triarchic Abilities, Gardner's multiple intelligences, and academic achievement, Social Behavior and Personality, An international journal, 42, 625-634. DOI: https://doi.org/10.2224/sbp.2014.42.4.625

- Malekpour, M., Shooshtari, M., Abedi, A., &Ghamarani. A. (2016). Examination of the of effectiveness Stemberg’s successful intelligence program on executive function of sharp-witted primary school level students, Modern Applied Science, 10 (8), 75-83.

- Margaretha, P.M. & et al. (2019). Students geometric reasoning proficiency reviewed through Van Hieles 5 levels of geometry, IOP Conference Series Earth and Environmental Science ,243(1):012056, April, DOI: 10.1088/1755-1315/243/1/012056.

- MacGregor, D., (2013). Academy of math developing mathematical Proficiency EPS Literacy and intervention. Philipp, Randy., Siegfried John., Cline Laura., William Alison.

- Moodley, V.G. (2008). A description of mathematical proficiency in number skills of grade ten learners in both the Mathematics and Mathematics Literacy cohorts at a North Durboan school, master’s degree of Education, Faculty of Education, University of KwaZulu-Natal.

- Mumth, (2014). Taking trarchic teaching to classroom, giving everybody afirchance, International journal of Advanced Research, v (2), issuue5, 455-458.

- Palos, R., Maricutoiu, L., (2013). Teaching for successful intelligence questionnaire (TSI-Q) –A new instrument developed for assessing teaching style. Journal of Educational science & Psychology, 159-178.

- Philip, R., Siegfried, J., Cline, L., Williams, A., Jacobs, V., & Lamb, L. (2010). Productive Disposition: The missing component of Mathematical Proficiency. Presentation, Annual Meeting of the National Council of teacher of mathematics, Research Precession, SanDiageo, CA.

- National Research Council [NRC]. (2001): Adding it up: Helping children learn mathematics.

- Regan, B. (2012). The Relationship Between State High School Exit Exams and Mathematics Proficiency: Analyses of the Complexity, Content, and Format of Items and Assessment Protocols. PhD. College of education, Ohio University.

- Schoenfeld, A. H. (2007). What is Mathematical proficiency and How can It be Assessed? Assessing Mathematical Proficiency, Mathematical Sciences Research Institute Publications. USA: Cambridge University Press, v (53). pp59-75.

- Sitomer, Ann (2014). Adult returning students and proportional reasoning: Rich experience and emerging mathematical proficiency, PHD, Portland state university, united states, Oregon.

- Spracher, W. C. (2009). National security intelligence professional education: A map of U.S. civilian university programs and competencies, Unpublished Doctoral dissertation, George Washington University, Washington, D.C.

- Sternberg, R.J. (1997). Successful intelligence, New York: Plume

- Sternberg, R. and Grigorenko, Elena. (2004). Successful intelligence in the classroom, Theory into practice. 43 (4), 274-280. Article Retrieved From: https://doi.org/10.1207/s15430421tip4304_5

- Sternberg, R.J. (2004). Culture and Intelligence, Journal of American Psychologist, 59 (5), 325-338.

- Sternberg, R. (2005). The Theory of successful intelligence, Interamerican Journal of Psychology, 39 (2), 189-202.

- Sternberg, R.J. (2006). The scientific Basic for the theory of successful intelligence, the scientific Basic of Education Productive, 661-184.

- Sternberg, R.J. (2006 a). The Rainbow Project: Enhancing the SAT through assessments of analytical, practical, and creative skills, Intelligence, 34(4), 321–350.

- Sternberg, R.J. (2010). Assessment of gifted students for identification purposes: New techniques for a new millennium, Learning and Individual Differences, 20, 327–336.

- Sternberg, R. J. (2011). The theory of successful intelligence. In R J. Sternberg & S. B. Kaufman (Eds.), Cambridge handbook of intelligence, New York: Cambridge University Press.

- Sternberg, R. (2018). Context- Sensitive Cognitive and Educational Testing. Educational Psychology Review,30(3), 857-884.

- Sun, Jennifer M. (2007). Classroom Practices that Promote Mathematical Proficiency for all Students, Teaching children Mathematics, 14(3), 163-169.

- Thom, D. & Finkelstein, M. (2016). Implicit Broken structure: The Multidimensionality of Non-Cognitive factors in Higher Education. In Non-Cognitive skills and factors in Educational Attainment, PP 293-313, Brill Sense

- Veiga, F. H. Oliveira, M.I., & Taveira, M.C., (2014). Students Engagement in School, academic aspiration, and Career Exploration pf Portuguese Adolescent, paper for presentation at International Technology, Education and Development Conference (INTED), 10^th-12^th March, Valencia, Spain7545-75.