BIBLIOGRAPHY

Bibliography

ii

BIBLIOGRAPHY

Aggarwal, J.C. (1996). An Introduction to Educational Research. New Delhi:

Arya Books.

Agnihotri, S.K. (1987). Study of influence of some of the methods of teaching

Physics on achievement in Physics of class X students in Delhi. In

M.B. Butch (Ed.), Fourth Survey of Educational Research. New Delhi:

NCERT

Akar, E. (2005). Effectiveness of 5E Learning cycle model on students’

understanding of acid-base concepts. Dissertation Abstracts

International: Section A. Humanities and Social Sciences, 41(3), 1010.

Akcay, B. B. (2013). Entomology: Promoting Creativity in the Science Lab.

Science Activities: Classroom Projects and Curriculum Ideas, 50(2),

49-53.

Aldous, C. R. (2007). Creativity, problem solving and innovative science:

Insights from history, cognitive psychology and neuroscience.

International Education Journal, 8(2), 176-186.

Alias, N. & Siraj, S. (2012). Design and Development of Physics Module

Based on Learning Style and Appropriate Technology by Employing

Isman Instructional Design Model. Turkish Online Journal of

Educational Technology - TOJET, 11 (4), 84-93.

Amann, G. (2005). “Exploring physics in classroom” Books, guides class room

teacher. Retrieved from ERIC database. (ED506062)

Amran, N., Bahry, F.D.S., Yusop, Z.M., & Abdullah, S. (2011). Learning Styles

of Non-Science and Non-Technology Students on Technical Courses

in an Information Management Program. Education for Information,

28(2), 325-339.

Anastasi, A. (1961). Psychological testing (2nded.). New York: The Macmillian

Company.

Bibliography

iii

Anilkumar, A. (1992). The relationship between creativity in science and

certain demographic variables of secondary school pupils.

(Unpublished M.Ed. Dissertation). University of Kerala,

Thiruvanathapuram, India.

Asaf, J. (2012). Effectiveness of inquiry based learning on scientific creativity

and process skills in science. (Unpublished Doctoral Dissertation).

University of Kerala, Thiruvanathapuram, India.

Ates, S. (2005). The effectiveness of the learning-cycle method on teaching

DC circuits to prospective female and male science teachers.

Research in Science and Technological Education, 23(2), 213-227.

Atkin, J. M.,& Karplus, R. (1962). Discovery or invention? Sci. Teach, 29:45.

Atkinson, J., Berene. E., & Woodworth, R.S. (1998). Dictionary of Psychology,

(4th revised ed.). New Delhi: Goyal Saab.

Aydin, S., & Hanuscin, D.L. (2011). Secret in the margin: Rutherford’s Gold

foil experiment. Science Teacher, 78 (7), 56-60.

Barman, C. R. (1992). An evaluation of the use of a technique designed to

assist prospective elementary teachers use the learning cycle with

science textbooks. School Science and Mathematics, 92(2), 59-63.

Barman, C. R., Cohen, M. R., & Shedd, J. D. (1993). The learning cycle: A

basic tool for teachers too. Perspectives in Education and Deafness,

11(4), 7-11.

Barry, D.M., & Kanemastu, H. (2007).Science Fair competition generates

excitement and promotes creative thinking in Japan. Retrieved from

ERIC data base. (ED491740)

Beisenherz, P. C., & Dantonio, M. (1996).Using the learning cycle to teach

physical science: A hands-on approach for the middle grades.

Heinemann: (Portsmouth, NH)

Bibliography

iv

Berg, C. A. R., Bergendahl, V.C.B., & Lundberg, B.K.S. (2003). Benefiting

from an open-ended experiment? A comparison of attitudes to, and

outcomes of, an expository versus an open-inquiry version of the same

experiment. International Journal of Science Education, 25(3), 351–

372.

Best, J.W., & Khan, J.V. (2004). Research in Education. (9th ed.). New Delhi:

Prentice Hall of India Pvt.Ltd.

Bianchini, J.A. & Colburn, A. (2000).Teaching the nature of science through

inquiry to prospective elementary teachers: A tale of two researchers.

Journal of Research in Science Teaching, 37(2), 177-209.

Bolliger, D. U., & Supanakorn, S. (2011). Learning Styles and Student

Perceptions of the Use of Interactive Online Tutorials. British Journal of

Educational Technology, 42(3), 470-481.

Bowyer, J. A. B. (1976). Science Curriculum Improvement Study and the

development of scientific literacy. Dissertation Abstracts International:

Section A. Humanities and Social Sciences 37(1), 107.

Broderick, C. (2011). Cycle of Success: Learning Sequence Melds Disjointed

Activities into a Streamlined Structure. Journal of Staff Development,

32 (5), 14-16.

Brown, T. W. (1973). The influence of the Science Curriculum Improvement

Study on affective process development and creative thinking.

Dissertation Abstracts International: Section A. Humanities and Social

Sciences, 34(6), 3175.

BSCS. (1994). Middle School Science & Technology (1sted.). Dubuque, IA:

Kendall/Hunt Publishing Company.

BSCS. (1997). BSCS biology: A human approach (1sted.). Dubuque, IA:

Kendall/Hunt Publishing Company.

BSCS. (2006). BSCS Biology: A Human Approach (3rded.). Dubuque, IA:

Kendall/Hunt Publishing Company.

Bibliography

v

BSCS. (2006). BSCS Science: An Inquiry Approach. Dubuque, IA:

Kendall/Hunt Publishing Company.

BSCS. (2006). BSCS Science T.R.A.C.S. (2nded.). Dubuque, IA: Kendall/Hunt

Publishing Company.

BSCS. (1999). BSCS science T.R.A.C.S. Dubuque. IA: Kendall/Hunt

Publishing Company.

BSCS.(1999). Middle School Science & Technology (2nded.). Dubuque, IA:

Kendall/Hunt Publishing Company.

BSCS. (2003). BSCS biology: A human approach (2nded.). Dubuque, IA:

Kendall/Hunt Publishing Company.

BSCS. (2005). BSCS Science & Technology (3rded.). Dubuque, IA:

Kendall/Hunt Publishing Company.

BSCS., & IBM. (1989). New Designs for Elementary Science and Health: A

Cooperative Project between Biological Sciences Curriculum Study

(BSCS) and International Business Machines (IBM). Dubuque, IA:

Kendall/Hunt Publishing Company.

Budprom, W., Suksringam, P., & Singsriwo, A. (2010). Effects of learning

environmental education using 5E Learning cycle, multiple intelligence

and teacher’s handbook approaches on learning achievement, basic

science process skills and critical thinking of Grade 9 students.

Pakistan Journal of Social Sciences, 7(3), 75-83.

Bulunuz, M., & Jarrett, O. S., (2010). Developing an interest in science back

ground experiences of pre-services elementary teachers. International

Journal of Environmental Science Education, 5(1), 65-84.

Butch, M. B. (Ed.). (1991). Fourth Survey of Educational Research. New

Delhi: NCERT

Bybee, J. W., & Landes, N. M. (1988). The biological sciences curriculum

study (BSCS). Science and Children, 25(8), 36-37.

Bibliography

vi

Bybee, R. W., Taylor, J. A., Gardner, A., Van S., P., Powell, J. C., Westbrook,

A., & Landes, N. (2006). The BSCS 5E instructional model: Origins,

effectiveness, and applications, Colorado Springs: BSCS.

Bybee, R.W. (1997). Improving instruction, In Achieving scientific literacy:

From purposes to practice. Portsmouth, NH: Heinemann.

Bybee, R.W.,& Landes, N.M. (1990). Science for life & living: An elementary

school science program from the Biological Sciences Curriculum

Study. The American Biology Teacher, 52(2), 92-98.

Cagiltay, N. E. (2008). Using Learning Styles Theory in Engineering

Education.European Journal of Engineering Education, 33 (4), 415-

424.

Campbell, T. C. (1977). An evaluation of a learning cycle intervention strategy

for enhancing the use of formal operational thought by beginning

college physics students. Dissertation Abstracts International: Section

A. Humanities and Social Sciences, 38(7), 3903.

Cekiso, M. P. (2011). Profiling Learning Style Preferences of First-Year

University Students: Implications for Course Design and Instruction.

South African Journal of Higher Education, 25(7), 1298-1309.

Ceylan, E., & Geban, O. (2009). Facilitating conceptual change in

understanding states of matter and solubility concept by using 5E

learning cycle model. Hacetteppe university journal of education,

Retrieved from ERIC database. (EJ849328)

Champagne, A. (1987). The psychological basis for models of science

instruction.Commissioned paper for IBM-supported design project.

Colorado Springs, CO: BSCS.

Chang, C.Y. & Mao, S.L. (1998).The effects of an inquiry-based instructional

method on earth science students’ achievement. Retrieved from ERIC

database. (ED418858)

Bibliography

vii

Cheriyan, V. K. (2010). Effectiveness of Kolb’s Experimental Learning model

on achievement in Mathematics of students at secondary level.

(Unpublished Doctoral Dissertation).Mahatma Gandhi University,

Kottayam, India.

Clare-Marie, S. & Martina, N. (2009). Creative activities and their influence on

identification in science: Three case studies. Journal of Elementary

Science Education, 21(3), 63-79.

Clarke, J. (1994). Pieces of the puzzle: the jigsaw method. Handbook of Co-

operative Learning Methods. Westport, CT: Greenwood Press.

Clarke, T. A., Lesh, J. J.,Trocchio, J. S., & Wolman, C. (2010).Thinking Styles:

Teaching and Learning Styles in Graduate Education Students.

Educational Psychology, 30(7), 837-848.

Colburn, A. (2000). Constructivism: Science education’s “grand unifying

theory.” The Clearing House, 9-12.

Crow, L.D. & Crow, A. (1973). Educational Psychology, New Delhi: Eurasia

Publishing House.

Datta, K.L. (1989). Differences in scientific creativity among high school

students. In M.B. Butch (Ed.), Fifth Survey of Educational Research.

New Delhi: NCERT

Dewey, J. (1910). Science as subject matter.Science, 121-127.

Dewey, J. (1934). Art as experience. New York : Putnam Capricon Books.

Dewey, J. (1938). Experience and education,New York:Macmillan.

Dewey, J. (1938/1997). Experience and education. New York: Simon and

Schuster.

Dewey, J. (1971). How we think. Chicago: Henry Regnery Company.

Dewey, J. (1987). My Pedagogic Creed. The school Journal, LIV (3).

Bibliography

viii

Dewey, J. (1916). Democracy and education: An introduction to the

philosophy of education. New York: The free press.

Dey, B. (1984). The Relationship of Creativity to Intelligence and Academic

Achievement of National Rural Talent Scholarship Awards. In M.B.

Butch (Ed.), Fourth Survey of Educational Research. New Delhi:

NCERT

Dogru-Atay, P., & Tekkaya, C. (2008). Promoting Students' Learning in

Genetics with the Learning Cycle. Journal of Experimental Education,

76 (3), 259-280.

Driver, R., Leach, J., Scott, P., & Wood-Robinson, C. (1994).Young people’s

understanding of science concepts: Implications of cross-age studies

for curriculum planning. Studies in Science Education, 24, 75-100.

Driver, R., Squires, A., Rushworth, P., & Wood-Robinson, V. (1994). Making

sense of secondary science, Research into children's ideas. London:

Routledge.

Duckwoth, K., (1964). Quotations. Retrieved from en.wikipedia.org/wiki/

kevin_Duckworth.

Dugglas, L. L. (2002). Inquire within- Implementing Inquiry based science

Standard. U.S.A: Sage Publications.

Duit, R. & Treagust, D.F. (1998). Learning in science-from behaviorism

towards social constructivism and beyond. In B.J. Fraser & K.G.Tobin

(Eds.), International handbook of science education. Dordrecht, The

Netherlands: Kluwer Academic Publishers.

Duran, E., Duran, L., Haney, J., & Scheuemann, A. (2011). A learning cycle

for all students. Science Teacher, 78(3), 56-60.

Ebel, R.L. & Frisbie, D.A. (1991). Essentials of Educational Measurement.

New Delhi: Prentice Hall of India Private Limited.

Bibliography

ix

Ebrahim, A. (2004). The effects of traditional learning and a learning cycle

inquiry learning strategy on students’ science achievement and

attitudes toward elementary science (Kuwait). Dissertation Abstracts

International: Section A. Humanities and Social Sciences, 65(4), 1232.

Edwards, A.L. (1957). Techniques of Attitude Scale Construction. Bombay:

Vakils Feffer and Simons Ltd.

Feynman, R. P. (1963). Feynman Lectures on Physics. Vol. 1 (chapter2, p.1)

Menlo Park, CA: Addison- Wesley.

Fraenkal, R., & Wallen, E. (2006). How to design and evaluate research in

Education. New York: McGraw Hill Companies Inc.

Gafoor, A. K., Narayan, S. (2012). Out of school experience categories

influencing interest in science of upper primary students by gender and

locale: Explanation on an Indian sample. Science Education

International, 23(3), 191-204.

Garret, H.E. (2005). Statistics in Psychology and Education. Bombay:Vikils,

Feffer and Somons Ltd.

Golwinski, I., & Bayrhuber, H. (2011). Student’s lab on a type of out-of school

learning environments: Assessing the potential to promote students

interest in science. International Journal of Environment & Science

Education, 6(4), 371-392.

Good, C. V. (1972). Essentials of Educational Research. New York: Appleton

Century Crofts, Meredith Corporation.

Good, C.V. (1973). Dictionary of Education. Newyork: Mc Graw Hill Book

Company Inc.

Guilford, J.P. (1950). Creativity. Am Psychol. 5, 444-454.

Guilford, J.P. (1967). The nature of human intelligence. New York: McGraw-

Hill.

Bibliography

x

Haneeshia, D. (2001). A study on the scientific creativity of pupils in DPEP

and non-DPEP schools in Kerala. (Unpublished M.Ed Dissertation).

University of Kerala, Thiruvanathupuram, India.

Hanuscin, D., Delinda, V. G., Le, J. E., Hill, T., & Presleep, M. (2013).

Breaking the cycle: Supporting elementary teachers understanding

and ability to apply the 5E Model.Journal of Elementary Science

Education, 20(2), 51-66.

Hassard, J., & Dias, M. (2009).The act of teaching Science: Inquiry and

Innovations in Middle School and High School. Oxford: Oxford

University Press Inc.

Heiss, E. D., & Obourn, E. S. (1950). Modern Science Teaching. New York:

Macmillan.

Herbart, J. (1901). Outlines of Educational Doctrine, trans. C. DeGarmo; ed.

A. Lange. New York: Macmillan.

Hewson, P.W., Beeth, M.E., & Thorley, N.R. (1998). Teaching for conceptual

change. In B. J. Fraser & K. G. Tobin (Eds.), International handbook

of science education. Dordrecht, The Netherlands: Kluwer Academic

Publishers.

Hill, J.,Queen,M.C., Charlene A., O’Connell, J. R., Taylor, S., & Tursh, M.

(2000).Chemicals, the environment, and you: Exploration in science

and human health. Retrieved from ERIC database. (ED466410)

Hokkanen, S.L. (2011).Improving student achievement, interest and

confidence in science through the implementation of the 5E Learning

Cycle in the middle grades of an urban school. Retrieved from

http://www.scholarworks.montana.edu/xmlui/bitstream/.../1/.../Hokkane

nS0811.pdf

Hu,W., Wu,B., Jia,X., Yi, X.,Duan, C., & Aufman, J.C.(2013) Increasing

Students' Scientific Creativity: The “Learn to Think” Intervention

Program. The Journal of Creative Behavior (2013, 47(1,) 3–21).

Retrieved from doi: 10.1002/jocb.20.

Bibliography

xi

Hurd, P. D. (1988). New directions in Science education. In LaMoine L Motz &

Gerry M. Madrazo (Eds.). Washington DC: National Science teachers

Association.

Ishiyama, J., & Hartlaub, S. (2003). Sequential or Flexible? The impact of

differently structured political science majors on the development on

student reasoning. Political Science and Policies, 36(1), 83-86.

Kamarulzaman, W. (2012). Critical Review on Affect of Personality on

Learning Styles. Paper presented at the International Conference on

Arts, Social Science & Technology. (Penang, Malaysia, Mar 3-5 2012)

Karplus, R., & Their, H. D. (1967). A new look at elementary school science.

Chicago, IL: Rand McNally.

Kayes, D.C. (2005). Internal Validity and reliability of Kolb’s learning style

inventory version 3(1999).Journal of Business and Psychology,20(2),

249-251.

Kaynar, D., Tekkaya,C., & Cakirogle, J. (2009). Effectiveness of 5E Learning

Cycle on student achievement in cell concept and scientific

epistemological beliefs. Retrieved from ERIC database. (EJ871023)

Kinqir, S., & Akqemeir, E. (2013). Using the learning cycle method to improve

college students understanding of gases concepts.European

Educational Research Association, 2013.

Klob,D.A. (1984). Experiential learning: Experience as the source of learning

and development. Englewood cliffs, N.J: Prentice-Hall.

Kolb, D.A. (2005). Learning style inventory, version 3.1: Technical

Specification Boston, MA: Hay Group, Hay Resource Direct.

Koul, L. (1984). Methodology of educational research. New Delhi: Vikas

Publishing House Pvt. Ltd.

Kuhn, T.S. (1977). The essential tension: Tradition and innovation in scientific

research: The essential tension: Selected studies in scientific tradition

and change. Chicago, IL: The University of Chicago Press.

Bibliography

xii

Kurplus, R., (2003). Science teaching and the development of reasoning

[Special issue]. Journal of Research in Science Teaching, 40

(Supplement), S51-S57.

Landrum, T. J., & McDuffie, K. A. (2010). Learning Styles in the Age of

Differentiated Instruction. Exceptionality, 18 (1), 6-17.

Lawson, A. E. (1995). Science teaching and the development of thinking.

Belmont, CA: Wadsworth Publishing Company.

Lindgren, J., & Bleicher, R. E. (2005). Learning the Learning Cycle: The

Differential Effect on Elementary Pre-service Teachers. School

Science and Mathematics, 105(2), 61-65.

Lowery, L. F., & Bowyer, J. (1980). The Science Curriculum Improvement

Study and student attitudes. Journal of Research in Science Teaching,

17(4), 197-216.

Lynch, T. G., Woelf, N.N, Steekem, D.J., & Hanssen, C. S. (1998). Learning

style influences examination performance. American Journal of

Surgery, 176(1), 62-66.

Lyons, T., & Quinn, F. (2010).Choosing Science: understanding the declines

in senior high school science enrolments, England: University of New

England.

Madu, B. C. (2012). Effect of the Four-Step Learning Cycle Model on

Students' Understanding of Concepts Related to Simple Harmonic

Motion. Asia-Pacific Forum on Science Learning and Teaching, 13 (1),

A 4.

Malcolm, M. D. (1976). The effect of the Science Curriculum Improvement

Study on a child's self-concept and attitude toward science.

Dissertation Abstracts International: Section A. Humanities and Social

Sciences, 36(10), 6617.

Mangal, S. K. (2000). Advanced educational psychology. New Delhi: Prentice

Hall of India Private Ltd.

Bibliography

xiii

Manolis, C., Burns, D. J., Assudani, R., & Chinta, R. (2013). Assessing

Experiential Learning Styles: A Methodological Reconstruction and

Validation of the Kolb Learning Style Inventory. Learning and Individual

Differences, 23, 44-52.

Mathai, L. (2010). A study on vocational interest, career maturity and interest

in commerce education of commerce students at higher secondary

level. (Unpublished M.Phil. Dissertation), Mahatma Gandhi University,

Kottayam, India.

McCarthy, D. (2005). Newton's First Law: A Learning Cycle Approach.Science

Scope, 28(5), 46-49.

McCormack, A. J., & Yager, R.A .(1989). A new Taxonomy of Science

Education. Science Teacher, 56 (2), 47-48.

Mc-Glinn, J, M. (2003).The impact of experiential learning on student

teachers. Clearing House, 76(3), 143-147.

Mednick, S.A. & Mednick M.T. (1967). Examiner’s manual: Remote

Associates Test. Boston: Houghton Mifflin.

Mohr, A. Toni., Holtbrugge, D., & Berg, N. (2012). Learning Style Preferences

and the Perceived Usefulness of e-Learning.Teaching in Higher

Education, 17(3), 309-322.

Naab, L., & Henry, D. (2009). Why static clings. Science and children, 47(4),

32-36.

National Research Council (NRC). (1999). How people learn: Brain, mind,

experience, and school.J. D. Bransford, A. L. Brown and R. R. Cocking

(Eds). Washington DC: National Academy Press.

National Research Council (NRC). (2000). How people learn: Brain, mind,

experience, and school (Expanded Edition). Washington DC: National

Academy Press.

Bibliography

xiv

National Research Council (NRC). (2000). Inquiry and the national science

education standards: A guide for teaching and learning. Washington,

DC: National Academy Press.

National Research Council (NRC). (2005). How Students Learn: Science in

the Classroom.M. S. Donovan and J. D. Bransford (Eds.). Washington

DC: National Academies Press.

National Research Council (1995). National Science Education Standards.

Washington DC: National Academies Press.

Nehru, J. (1964). Jawaharlal Nehru quotes. Retrieved from http://thinkexist

.com/ quotation/410964.html.

Netto, G. S. (2008). Effectiveness of reflective thinking strategy of teaching on

certain cognitive and affective variables among secondary school

students. (Unpublished Ph.D Doctoral Dissertation). Mahatma Gandhi

University, Kottayam, India

Nussbaum, J. (1979). The effect of the SCIS's relativity unit on the child's

conception of space. Journal of Research in Science Teaching, 16(1),

45-51.

Osawaru, A. P., & Eravwoke, U. (2012). Effects of 5E Learning Cycle Model

on student’s achievement in Biology and Chemistry.Cypriot Journal of

educational Sciences, 7(3).

Oughton, J.M., & Reed, W. M. (2000). The effect of hypermedia knowledge

and learning style on student centered concept maps about

hypermedia. Journal of research on Computing in Education, 32(3),

366-384.

Ozgen, K., & Alkan, H. (2012).The Relationship between Secondary School

Pre-Service Mathematics Teachers' Skills in Problem Solving

Dimensions and Their Learning Style Characteristics. Educational

Sciences: Theory and Practice, 12 (2), 1173-1181

Bibliography

xv

Papadopoulos, P. M., Demetriadis, S. N., Stamelos, I. G., & Tsoukalas, I. A.

(2010). The Effect of Prompting to Students with Different Learning

Styles. Multicultural Education & Technology Journal, 4 (3), 198-213.

Pavithalakshmi. (2010). Effectiveness of constructivist approaches on

creativity in Hindi at secondary level. (Unpublished M.Ed Dissertation).

Mahatma Gandhi University, Kottayam, India.

Philip, R. (2007). A study of relationship between intelligence, science

creativity, achievement motivation, home environment and

achievement in science of higher secondary school pupils of Kerala.

(Unpublished Doctoral Dissertation). Mahatma Gandhi University,

Kottayam, India.

Piaget J. (1950). The Psychology of Intelligence. New York: Routledge.

Piaget, J. (1950). Piaget's theory. In B. Inhelder & H. H. Chipman (Eds.).

Piaget and his school. New York: Springer-Verlag.

Piaget, J. (1975). From noise to order: The psychological development of

knowledge and phenology in biology, Urban Review, 8(3), 209.

Piaget, J. (1970). Genitic Epistemology. New York: Columbia University

Press.

Piaget, J., & Inhelder, B. (1969). The psychology of the child. New York: Basic

Books.

Posner, G. J., & Strike, K. A. (1982). Accommodation of a scientific

conception: Toward a theory of conceptual change. Science

Education, 66(2), 211-227.

Purser, R. K., & Renner, J. W. (1983). Results of two tenth-grade biology

teaching procedures. Science Education, 67(1), 85-98.

Raina, K. (1986). Psycho-social correlates of scientific creativity among High

school students. In M.B. Butch (Ed.), Fourth survey of educational

research, New Delhi: NCERT

Bibliography

xvi

Rajasree, S. (2013). Effectiveness of McCormack and Yager taxonomy in

teaching Physics at Secondary level. (Unpublished Doctoral

Dissertation). Mahatma Gandhi University, Kottayam, India.

Rajesh, N. (2008). Relationship between creativity and self-concept on

academic achievement among higher secondary school students.

(Unpublished M.Ed. Dissertation). Mahatma Gandhi University,

Kottayam, India.

Raven, J.C. (1941). Standardization of progressive Matrices, 1938, British

Journal of Medical Psychology, XIX(1),137-150.

Raven, J., Raven, J.C., & Court, J.H. (2003). Manual for Raven’s Progressive

Matrices and Vocabulary Scales.Section 1: General Overview. San

Antonio, TX: Harcourt Assessment.

Renner, J. W., & Abraham, M. R. (1988). The necessity of each phase of the

learning cycle in teaching high school Physics. Journal of Research in

Science Teaching, 25(1), 39-58.

Renner, J. W., & Paske, W. C. (1977). Comparing two forms of instruction in

college Physics. American Journal of Physics, 45(9), 851-859.

Renner, J. W., Abraham, M. R., & Birnie, H. H. (1983).Sequencing language

and activities in teaching high school Physics—A report to the National

Science Foundation. Norman, OK: University of Oklahoma.

Renner, J. W., & Abraham, M. R. (1985).The importance of the form of

student acquisition of data in Physics learning cycles. Journal of

Research in Science Teaching, 22(4), 303-325.

Renner, J. W., & Paske, W. C. (1977). Comparing two forms of instruction in

college Physics. Am. I. Phys., 45, 851–859.

Renner, J.W., & Lawson, A.E. (1975). Intellectual development in pre-service

elementary school teachers: An evaluation. Journal of College Science

Teaching, 5(2), 89-92.

Bibliography

xvii

Sal-Kind, J.N. (2008). Encyclopedia of Educational Psychology. Vol 1, Sage

Publications.

Sandhu., & Kaur, P. (2011). A study of educational interest of 10 th grade

students in relation to their Socio- economic status. Recent researches

in Education and Psychology, 16(III-IV), 85-89.

Sanjayan,T.S.,(2011). Impact of knowledge management practices for

improving creativity of teachers at undergraduate level.(Unpublished

M.Phil. Dissertation). Mahatma Gandhi University, Kottayam, India.

Saunders, W. L., & Shepardson, D. (1987).A comparison of concrete and

formal science instruction upon science achievement and reasoning

ability of sixth-grade students.Journal of Research in Science

Teaching, 24(1), 39-51.

Sax,G.(1989). Principles of Educational and Psychological measurement and

education. Belmont, CA: Wadsworth Publishing Company.

Schlenker, R. M., Blanke, R., & Mecca, P. (2007). Using the 5E Learning

Cycle Sequence with Carbon Dioxide.Science Activities: Classroom

Projects and Curriculum Ideas, 44 (3), 83-94.

Schneider, L. S., & Renner, J. W. (1980). Concrete and formal teaching.

Journal of Research in Science Teaching, 17(6), 503-517.

Seo, H. A., Lee, E. A., & Kim, K. H. (2005). Korean Science teachers’

Understanding of Creativity in Gifted Education. The journal of

Secondary Gifted Education, XVI( 2/3).

Shaheen, R. (2011). The place of creativity in Pakistani Primary Education

System: An investigation into the factors enhancing and inhibiting

primary school children's creativity. Lambert Academic Publishing.

Retrieved from https://www.lap-publishing.com/catalog/ details/sto...

Sikes, S. S., Schwartz, B., & Rochelle D. (2009). Direction discovery: A

science enrichment program for high school students. Biochemistry

and Molecular Biology Education, 37(1), 77-83.

Bibliography

xviii

Sindhu, G. (2005). Relationship among creativity, classroom adjustment and

achievement of students at higher secondary level. (Unpublished

M.Phil. Dissertation). Mahatma Gandhi University, Kottayam, India.

Solvie, P., & Sungur, E. (2012). Teaching for Success: Technology and

Learning Styles in Pre-service Teacher Education. Contemporary

Issues in Technology and Teacher Education (CITE Journal), 12 (1), 6-

40.

Sorey, T., Williard, T., & Kim, B. (2010). Make your own digital thermometer.

Science Teacher, 77 (3), 56-60.

Speece, M. (2012). Learning Style, Culture and Delivery Mode in Online

Distance Education.Online Submission, US-China Education Review,

A(1),1-12.

Sriphai, S., Damrongpanit, S., & Sakulku, J. (2011) An Investigation of

Learning Styles Influencing Mathematics Achievement of Seventh-

Grade Students. Educational Research and Reviews, 6 (15), 835-842.

Su, C.Y., Chiu, C.H., & Wang, T.I. (2010).The development of SCORM-

conformant learning content based on the learning cycle using

participatory design- Journal of computer assisted learning. Retrieved

from ERIC database. (EJ897863)

Sukla, V.C., & Sharma, S.Y. (1987). Administration of scientific creativity scale

for students in the middle school. (Unpublished Doctoral Dissertation).

Bihar University, India.

Sywelem, M., Al-Harbi, Q., Fathema, N., & Witte, J. E. (2012). Learning Style

Preferences of Student Teachers: A Cross-Cultural Perspective.

Institute for Learning Styles Journal, 1, 10-24.

Taylor, J. A., Van S. P., & Coulson, D. (2007). Bridging research on learning

and student achievement: The role of instructional material. Science

educator,16 (2), 44-50.

Bibliography

xix

Terry, M. (2001).Translating learning style theory into university teaching

practices. Journal of College Reading and learning, 32(1), 68-85.

Thier, H. D. (1965). A look at a first-grader understands of matter. Journal of

Research in Science Teaching, 3(1), 84-89.

Thomas, S. (2007). Effectiveness of Co-operative learning on learning styles

at academic performance in mathematics learning at the upper primary

level. (Unpublished Doctoral Dissertation). Mahatma Gandhi

University, Kottayam, India.

Thomson, B. S., & John, M. R. (1997). Attending to learning styles in

Mathematics and Science classrooms. Retrieved from ERIC database.

(ED432440)

Tinnin, R. K. (2000). The effectiveness of a long-term professional

development program on teachers’ self-efficacy, attitudes, skills, and

knowledge using a thematic learning approach. Dissertation Abstracts

International: Section A. Humanities and Social Sciences, 61(11), 43-

45.

Torrance, E, P. (1969). What is honored: Comparative studies of creative

achievement and motivation? Journal of Creative Behavior, 3(3), 149-

154.

Torrance, E.P. (1990).Torrance Tests of Creative Thinking: Directions

Manual: Figural A and B. Scholastic Testing Service. Retrieved from

ststesting.com/2005giftttct.html

Torrance, E.P., Ball, O.E., & Safter, H.T.(1992).Torrance Tests of Creative

Thinking: Streamlined Scoring Guide: Figural A and B. Scholastic

Testing Service. Retrieved from ststesting.com/2005giftttct.html

Torrance, E.P. (1966). The Torrance Tests of Creative Thinking-

NormsTechnical Manual Research Edition-Verbal Tests, Forms A and

B, Figural Tests, Forms A and B. Retrieved from

ststesting.com/2005giftttct.html

Bibliography

xx

Tuna & Kacar. (2013). The effect of 5E learning cycle model in teaching

trigonometry on students’ academic achievement and permanence of

their knowledge. Journal on New Trends in Education and their

Implication, 4(1), A7.

Turkmen, H. (2006). What Technology Plays Supporting Role in Learning

Cycle Approach for Science Education., Turkish Online Journal of

Educational Technology – TOJET, 5(2), A10.

Vaidya, N., (1996). Science teaching for 21st century. New Delhi: Deep and

Deep Publication.

Vaughn, L. M., Hensley, B., Baker, R. C., Dearman, L. (2010).Learning Styles

and Their Relationship to Stress and Coping in College Women.

Journal on Excellence in College Teaching, 21(2), 97-111.

Vermont, D. F. (1984).Comparative effectiveness of instructional strategies on

developing the chemical mole concept. Dissertation Abstracts

International: Section A. Humanities and Social Sciences, 45(08),

2473.

Vijayalekshmi, R. (2008). Relationship between level of aspiration and

creativity of students at secondary level. (Unpublished M.Ed.

Dissertation). Mahatma Gandhi University, Kottayam, India.

Vincent, D., Cassel, D., & Milligam, J. (2008). Will it float”: A learning cycle

investigation of mass and volume. Science and Children, 45 (6), 36-39.

Von-Glasersfeld, E. (1993). Questions and answers about radical

constructivism. In K.G. Tobin (Ed), The practice of constructivism in

science education (pp.23-38). Washington, DC: AAAS Press.

Von-Secker, C. (2002). Effects of inquiry-based teacher practices on science

excellence and equity. The Journal of Educational Research, 95(3),

151-160.

Vygotsky, L. S. (1962). Thought and Language. Cambridge, MA: MIT Press.

Bibliography

xxi

Vygotsky, L.S. (1978). Mind in society. Cambridge, MA: Harvard University

Press.

Walia, P. (2012). Effect of 5E instructional model on mathematical creativity of

students. Golden Research thoughts, 1(10), 1.

Wheatley, G.H. (1991). Constructivist perspectives on science and

mathematics learning. Science Education, 75(1), 9-21.

Whiteleg, E., & Murphy, P. (2006). Difference in interest, motivation and

aspiration on Physics between sexes. Teaching Science, 4(2), 46-55.

Wilder, M., Shuttleworth, P. (2004). Cell Inquiry: A 5E Learning Cycle Lesson.

Science Activities: Classroom Projects and Curriculum Ideas, 41(1),

25-31.

Yenice, N. (2012). A Review on Learning Styles and Critically Thinking

Disposition of Pre-Service Science Teachers in Terms of

Miscellaneous Variables. Asia-Pacific Forum on Science Learning and

Teaching, 13 (2), A 4.

Yeniilmez, K. ( 2007). Relationships among learning styles, mathematics

attitude and anxiety for students in secondary school teacher training

institutes in turkey. International Journal of Education Reform, 16(2),

156-168,

Zhao, N., Witzig, S. B., Weaver, J. C., Adams, J.E., & Schmidt, F. (2012).

Transformative professional development: inquiry based college

science teaching institutes.Journal of college science Teaching, 41,

18-25.

List of Websites Searched

http://www.edutechwiki.com

http://www.bscs.org

http://www.scholarworks.montana.edu

http://www.eric.com

Bibliography

xxii

http://www.google.com

http://www.googlebooks.com

http://www.education.com

http://www.indianjournals.com

http://www.wikipedia.org/

www.youtube.com

www.thinkexist.com

www.mgu.org