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2015/5, стр. 715 - 733

IRANIAN UNIVERSITY STUDENTS’ PERCEPTION OF CHEMISTRY LABORATORY ENVIRONMENTS

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Introduction

An important and valid source of information regarding the efficiency of science laboratories can be obtained by using measures that assess students’ perceptions of the laboratory learning environment. The need to assess the students’ perceptions in the science laboratory was first approached by a group of science educators in Australia (Fraser et al., 1993), that developed and validated the Science Laboratory Environment Inventory (SLEI). The SLEI has five scales (each with seven items) and the five response alternatives are Almost Never, Seldom, Sometimes, Often and Very Often. This instrument was found to be sensitive to different approaches to laboratory work and in different science disciplines such as biology or chemistry laboratory learning environments (Hofstein et al., 1996; Fisher et al., 1999).

The SLEI has been used in several studies conducted in different parts of the world. One comparative study examined students’ perceptions in six countries: UK, Nigeria, Australia, Israel, USA, and Canada (Fraser & McRobbie, 1995). Fraser et al. (1993) in Australia found that students’ perceptions of the laboratory learning environment accounted for significant amounts of the variance of the learning beyond that due to differences in their abilities.

In spite of internationalization of learning environment studies and vast arrays of research in science laboratory learning environments, few studies could be located that report some explorations regarding Iranian students’perceptions of their learning environments. This study, after validating a Persian version of the SLEI, tries to delve into Iranian university students’ satisfaction with their chemistry laboratory learning environments. It also tries to spot the chemistry laboratory environment dimensions that lead to Iranian university students’dissatisfaction. The work is unique since it is the first of its type in Iran.

Field of learning environments research

The pioneering works of two American scholars, Rudolf Moss and Herbert Walberg paved the way for the field of learning environments research. Through the evaluation of the Harvard Physics Project, Walberg & Anderson (1968) developed the Learning Environment Inventory (LEI). Working in a quite separate field, Moos developed a number of social climate scales, including those for use in correctional institutions (Moos, 1968) and psychiatric hospitals (Moos & Houts, 1968). These instruments led to the development of the Classroom Environment Scale (CES) (Trickett & Moos, 1973).

Interest in the concept of learning environments then spread. Fraser (1998a) states that the quality of the classroom environment in schools is a significant determinant of student learning and students’ positive perceptions of learning environments will pave the way for better and deeper learning. Numerous research studies have shown that student perceptions of the classroom environment account for appreciable amount of variance in learning outcomes, often beyond that attributable to background student characteristics (Dorman, 2001).

Decades of research in the field of learning environments have led to the development of a variety of economical, valid and widely-applicable questionnaires for assessing students’perceptions of classroom environments. There are now hundreds of researches which explore learning environments at various grade levels (primary, secondary, tertiary) and in a variety of contexts and classrooms including science and mathematics, chemistry, computer, biology, geography, physics and language.

Studies on science and mathematics classroom environments have a long tradition in the field and studies such as Yang et al. (2002), Wolf & Fraser (2008), and Aldridge & Fraser (2000) focused on science and mathematics learning environments with the aim of promoting these environments. Chemistry classroom environments have also been the target of exploration in different studies (e.g., Hofstein et al. 1979; 1996; McRobbie & Fraser. 1993; Wong et al. 1997; Riah & Fraser, 1998). Studies such as Soerjaningsih et al. (2001), and Maor & Fraser (1996) provide insightful ideas about the nature and promotion of computer classrooms environments. Among the rest, Moss & Fraser (2001) and Fisher et al. (1995) focused on biology classroom environments. Geography is another subject area which has been explored in a number of learning environment studies (e.g., Fraser & Chionh 2000). Psychosocial environments of physics classrooms have also been the subject of studies such as McRobbie et al. (1997) and Terwel et al. (1994).

This study is among those ones that report evaluation, exploration or promotion of chemistry laboratory learning environments.

The growth of learning environment studies can also be viewed from another perspective. Interest in learning environments spread from the USAto The Netherlands where it was picked up by Theo Wubbels and colleagues (Wubbels & Brekelmans, 1997; 1998; 2006; Wubbels & Levy, 1993), and to Australia, where it was carried forward by Barry Fraser (Fraser, 1998a,b, 2007). Learning environment research has since spread further afield to Asia (Fraser, 2002; Quek et al., 2005) and South Africa (Aldridge et al., 2006).

One of the most significant contributions of Wubbels and colleagues in The Netherlands was the development of the Questionnaire on Teacher Interaction (QTI) (Wubbels et al., 1997) because interpersonal relationships between students and teachers are such important aspects of the learning environment (Wubbels & Brekelmans. 1998).

In Australia, Fraser and colleagues initially elaborated the Individualized Classroom Environment Questionnaire (ICEQ) (Fraser, 1990), but this was followed by other widely used instruments such as the Science Laboratory Environment Inventory (SLEI), Constructivist Learning Environment Survey (CLES) and the WIHIC (Fraser. 1998b).

In Asia, the study of learning environments has been undertaken in Indonesia (Soerjaningsih et al. 2001), Taiwan (Aldridge et al., 1999), Singapore (Khoo & Fraser, 2008; Wong et al., 1997), Brunei (Scott & Fisher, 2004), Korea (Kim et al., 2000; Lee et al. 2003), Japan (Hirata & Sako, 1998), India (Koul & Fisher, 2005), and Thailand (Puacharearn, 2004). It should be noted that this study is the first learning environment research concerning chemistry laboratory settings in Iran.

Chemistry laboratory settings

Laboratory activities have long had a distinctive and central role in the science curriculum and science educators have suggested that many benefits accrue from engaging students in science laboratory activities (Lunetta, 1998; Hofstein & Lunetta, 2004).

It is true that very often research has failed to show a simplistic relationship between experiences provided to the students in the laboratory and learning science (Hofstein, 2004). However, sufficient data do exist to suggest that the laboratory instruction is an effective and efficient teaching medium to attain some of the goals for teaching and learning science. Appropriate laboratory activities can be effective in helping students construct their knowledge (Tobin, 1990; Gunstone, 1991), develop logical and inquiry-type skills, as well as problem-solving abilities. They can also assist in the development of psychomotor skills (manipulative and observational skills). In addition, they have a great potential in promoting positive attitudes and in providing students with opportunities to develop skills regarding cooperation and communication. In this respect the science laboratory is a unique learning environment. Thus, it has the potential to provide science teachers with opportunities to vary their instructional techniques and to avoid a monotonous classroom learning environment (Hofstein, 2004).

Appropriate laboratory activities can be effective in promoting cognitive skills, metacognitive skills, practical skills, and attitude and interest towards chemistry, learning chemistry, and practical work in the context of chemistry learning (Hofstein, 2004). In addition, it is clear that providing students with authentic and practical learning experiences has the potential to vary the classroom learning environment and thus to promote students motivation to study chemistry.

This study tries to explore students’ perceptions of chemistry learning environments and aims to provide science educators with students’perspectives about these laboratory environments. The results could be of great importance in creating more learner-centered, innovative, creative, critical and democratic chemistry laboratory environments.

About the SLEI

The SLEI was developed to assist researchers and teachers to assess science laboratory learning environments (Fraser & McRobbie, 1995). The initial version of the SLEI contained 72 items altogether, with 9 items in each of eight scales. However, extensive field-testing and instrument validation later led to a more economical and valid final version with 35 items, with 7 items in each of five of the original scales. Each item’s response alternatives are Almost Never, Seldom, Sometimes, Often, and Very Often. The scoring direction is reversed for approximately half the items. A typical item in the actual form of the Student Cohesiveness scale is: “Students in this laboratory class get along well as a group.” The wording of the preferred version is almost identical except for the use of such words as “would.” For example, the item “Our laboratory class has clear rules to guide student activities” in the actual version is reworded in the preferred version to read “Our laboratory class would have clear rules to guide student activities.” SLEI assesses five dimensions of the actual and preferred climate of science laboratory classes at the upper secondary school and higher education levels. Noteworthy features of the SLEI include its consistency with the literature, specific relevance to science laboratory classes, salience to science teachers and students, and economy of administration and scoring time.

The SLEI was field-tested and validated with cross-national samples consisting of 3,727 upper secondary school students in 198 classes and 1,720 university students in 71 classes from six countries (Canada, Australia, USA, England, Israel, and Nigeria). Item and factor analyses led to a refined version with satisfactory internal consistency reliability and factorial validity in both its actual and preferred versions.

The five scales of the SLEI include Student Cohesiveness, Open-endedness, Integration, Classroom Norms, and Material Environment. Student Cohesiveness assesses the extent to which students know, help, and are supportive of one another; Open-endedness assesses the extent to which laboratory activities emphasize an open-ended, divergent approach to experimentation; Integration assesses the extent to which laboratory activities are integrat- ed with non-laboratory and theory classes; Classroom Norms assesses the extent to which behavior in the laboratory is guided by formal rules; and Material Environment assesses the extent to which laboratory equipment and materials are adequate. By writing new items and rewriting existing ones, the authors redefined and modified scales selected from inventories for non-laboratory settings to suit them to science laboratory classes. They based further revisions of items on reactions from colleagues with expertise in questionnaire construction and in science teaching at the secondary and higher education levels, paying careful attention to suit item each for measuring both actual and preferred classroom environments.

Development of the Persian version of SLEI

A contextual, rather than textual, translation of the original version of the SLEI was undertaken. Since the study is just concerned about chemistry laboratory, the phrase “science laboratory” in the original SLEI was translated into “chemistry laboratory” in the Persian version.

Since the original instrument was designed for Western students, with all statements in English, careful translation and back translation as suggested by Brislin (1970) was carried out. After translation into Persian, an independent person who was fluent in both English and Persian conducted a back translation into Persian to investigate whether or not the translation had captured the original meaning. The Persian version of the SLEI has five scales with seven items per scale. All items are scored on a five-point frequency scale with Almost Never representing the most negative perception and Almost Always representing the most positive perception.

The Persian version of the SLEI was then distributed among 311 (M= 81 and F=230) Iranian university students in 21 laboratory classes in four universities. Among these 21 classes, six were related to Islamic Azad University of Arsanjan, five to Islamic Azad University of Abadeh, six to Shiraz University and four to Islamic Azad University of Marvdasht. With regard to age, most of the participants were from 19 to 22 (N=225); however, a few aged more than 23 (N= 38) were also present. With regard to years of study and major, students were mainly freshmen and sophomores and were studying different fields including biochemistry, biology, genetics, nuclear engineering, physics, and chemistry.

In general, students in Islamic Azad University of Arsanjan formed 29.26 percent (N=91), Islamic Azad University of Abadeh 19.61 percent (N=61) and Shiraz University 23.79 percent (N=74) and Islamic Azad University of Marvdasht 27.33 percent (N=85) of the whole sample. The number of students in each class ranged from 12 to 19.

Field testing and validation of the Persian version of SLEI

The students’responses to the Likert scale including almost never, seldom, sometimes, often and very often alternatives, were scored 1, 2, 3, 4 and 5 respectively. The data were analyzed through SPSS and various analyses were conducted to check factorial validity and internal consistency reliability of the Persian version of SLEI.

Before conducting factor analysis, the strength of the inter-correlations among the items should be investigated (Pallant, 2005). If the items of the questionnaire are measuring the same underlying trait they shall correlate with each other. For inspecting the inter-correlation among the items, the correlation matrices for actual and preferred forms of the Persian version of SLEI were provided. Tabachnick & Fidell (2001) and Pallant (2001) recommend an inspection of the correlation matrix for evidence of coefficients greater than 0.3. Few correlations above this level may make factor analysis inappropriate. There is no exact criterion concerning the number of coefficients above 0.3 but the number of coefficients greater than 0.3 was not limited in the correlation matrices provided for two forms of the Persian version of SLEI.

Two statistical measures were also generated by SPSS to help assess the factorability of the data: Bartlett’s test of sphericity and Kaiser-Meyer-Olkin (KMO) measure of sampling adequacy (Pallant, 2005). For the factor analysis to be considered appropriate, the Bartlett’s test of sphericity should be significant (p<0.05). The KMO index ranges from 0 to 1 and the minimum value for a good factor analysis is 0.6 (Tabachnick & Fidell, 2001).

The KMO index was higher than 0.6 (.753 and .873 for actual and preferred forms respectively) and the result of the Bartlett’s test of sphericity was significant (p<0.05). These two measures also attested to the factorability of the data for factor analysis.

Factor analysis

One of the most important considerations in the field of learning environment research is the choice of unit of analysis. In the present study, validation of data has been provided for the individual as unit of analysis. Use of the individual as the unit of analysis can provide spurious results because an unjustifiably small estimate of the sampling error is employed in tests of statistical significance (Dorman, 2001).

By using SPSS, principal component analysis with varimax rotation led to the generation of orthogonal factors. Past research suggested that the SLEI had a five-factor structure. This number of factors was retained for the Persian version of SLEI and confirmatory factor analysis was used.

The results of factor analyses for actual and preferred forms are provided in Table 2 and Table 3 respectively. Loadings of less than 0.30, a commonly used cut-off, have been eliminated. As it can be seen from Tables 1 and 2, all items load strongly on their hypothesized scale. There are two exceptions, however. Items number 4 and 18 in the preferred form have loadings greater than 0.30 on scales other than a priori assigned scale. Nevertheless, overall, this study provides support for the a priori five-factor structure of the final version of the Persian version of SLEI; nearly all items have a factor loading of at least 0.3 on their a priori scale. It is acceptable to maintain all 35 items of five scales in this questionnaire for further analysis.

Table 1. Factor Loadings from Confirmatory Factor Analysis (for the Actual Form of the SLEI)

ITEMFactor LoadingSCOPINCNMEA1.726A2.693A3.459A4.596A5.619A6.543A7.653A8.329A9.504A10.373A11.664A12.754A13.492A14.797
A15.694A16.727A17.559A18.705A19.814A20.698A21.782A22.678A23.737A24.673A25.616A26.678A27.652A28.714A29.693A30.735A31.543A32.753A33.435A34.624A35.382

Table 2. Factor Loadings from Confirmatory Factor Analysis (for the Preferred Form of the SLEI)

ITEMFactor LoadingSCOPINCNMEP1.763P2.626P3.715P4.764.304P5.688P6.454P7.544P8.697P9.742P10.576P11.723P12.485P13.727P14.740
P15.775P16.781P17.673P18.635.393P19.655P20.718P21.720P22.705P23.692P24.509P25.489P26.583P27.710P28.751P29.728P30.811P31.453P32.712P34.542P35.583Internal consistency reliability of the Persian version of SLEI

Table 3 reports the internal consistency (alpha reliability coefficient) for the validated 25-item version of the Persian version of SLEI, with separate reports for actual and preferred forms and for the use of the individual student as the unit of analysis.

Table 3 suggests that each scale of the Persian version of SLEI has acceptable internal consistency in all cases.

Table 3. Internal Consistency Reliability (Alpha Coefficient) for Actual and Preferred Forms and for Individual as the Unit of Analysis

ScaleAlpha ReliabilityActual FormPreferred FormStudent Cohesiveness.64.71Open-endedness.67.74Integration.78.85Classroom Norms.85.85Material Environment.76.81

Differences between actual and preferred learning environment

Data collected using the Persian version of SLEI were used in a research application involving investigation of whether there were differences between students’ actual and preferred classroom environment scores on the scales of Student Cohesiveness, Open-endedness, Integration, Classroom Norms , and Material Environment.

The average item mean and average item standard deviation were calculated for each actual and preferred scale of the refined the Persian version of SLEI for the individual as the units of analysis.

The five pairs of scores were computed through SPSS for conducting different paired-sample t-tests between the scores of the same scales of the actual and preferred forms. The results of these paired-sample t-tests are provided in Table 4. As it is clear, there are significant differences (p<0.05) between scores on Student Cohesiveness, Open-endedness, Integration, Classroom Norms , and Material Environment dimensions in the actual and preferred classroom environments.

Overall the results reported in this section clearly reveal that students preferred a more positive classroom environment than the one that they perceived as being actually present in terms of the five dimensions of Student Cohesiveness, Open-endedness, Integration, Classroom Norms, and Material Environment. These differences between students’actual and preferred environments in our study in Iran are consistent with past research which has explored the congruence between actual and preferred environments in a number of countries around the world (Fisher et al. 1995; Yarrow et al. 1997; McLeod & Fraser, 2010).

Table 4. The Results of Different Paired-sample T-Tests between the Scores of All Participants on the Five Dimensions of Actual and Preferred Forms

PAIREDDIFFERENCEStdfsig.P<0.05MeandifStd.Devia-tionStd. Er-ror Mean95% Confidence Inter-val of the DifferenceLowerUpperPair 1SC(Actual) -SC(Preferred)-3.805.21.29-4.38-3.21-12.86310.000Pair 2OP(Actual) –OP(Preferred)-3.664.24.24-4.14-3.19-15.23310.000Pair 3IN(Actual) – IN-(Preferred)-4.806.02.34-5.47-4.12-14.04310.000
Pair 4CN(Actual) –CN(Preferred)-6.516.07.34-7.19-5.84-18.93310.000Pair 5ME(Actual) -ME(Preferred)-4.024.73.26-4.55-3.49-14.97310.000

Conclusion

The first purpose of this article was to report the development and validation of a Persian version of the SLEI. The SLEI was carefully translated into Persian and was field tested with a sample of 311 students in 21 classes. The questionnaire exhibited strong factorial validity and internal consistency reliability in its actual and preferred forms.

The second purpose of the study was to compare Iranian university students’ actual and preferred perceptions of their chemistry laboratory learning environments. Past research (Fraser, 2007) was replicated in that Iranian university students preferred a more favorable classroom learning environment on all scales (Student Cohesiveness, Open-endedness, Integration, Classroom Norms, and Material Environment) than what they perceived to be actually present.

Laboratory instruction can play an important role in the scientific competence of students. It is an effective and efficient teaching medium to attain some of the goals for teaching and learning science. Previously no study was available to reveal what is going on in laboratory classroom environments in Iranian universities. This study, as the first one, shows that the situation is not that good. Change and improvement are necessary if we aim to create laboratory environments in which students are encouraged to construct their own knowledge. If we want to promote positive attitudes among students and to provide them with opportunities to develop skills regarding cooperation and communication, changes are required. This study is of great help for those educators who want to create democratic, critical, student-centered, and efficient chemistry laboratory environments.

Hitherto the unavailability of any Persian classroom environment questionnaire to assess chemistry laboratory learning environments has hampered learning environment research in these classrooms. Hopefully, the Persian version of the SLEI provided in Appendix A will both motivate and facilitate the growth of learning environment research in chemistry laboratory learning environments in Iran. In particular, there is scope for future research with the Persian version of the SLEI which replicates common lines of past research such as: using learning environment scales as dependent variables in studies of determinants of classroom environment (Aldridge & Fraser, 2008); investigation of associations between student outcomes and classroom learning environment (Wong et al., 1997); use of learning environment criteria in assessing educational programs (Martin-Dunlop & Fraser, 2008; Wolf & Fraser, 2008); and combining qualitative and quantitative methods in learning environment research (Aldridge et al., 1999); using feedback on students’perceptions of actual and preferred learning environment to direct improvements in classrooms (Aldridge et al., 2004; Yarrow et al., 1997).

This study was a response to the lack of learning environment research in chemistry laboratory settings in Iran. By reporting data specifically for an Iranian sample, it paves the way for future research on chemistry laboratory learning environment in Iran.

REFERENCES

Aldridge, J. M. & Fraser, B. J. (2000). A cross-cultural study of classroom learning environments in Australia and Taiwan. Learning Environments Research, 3, 101–134.

Aldridge, J.M. & Fraser, B.J. (2008). Outcomes-focused learning environments: determinants and effects. Rotterdam: Sense.

Aldridge, J.M., Fraser, B.J. & Huang, T.-C.I. (1999). Investigating classroom environments in Taiwan and Australia with multiple research methods. J. Educ. Res., 93, 48–62.

Aldridge, J.M., Fraser, B.J. & Sebela, M.P. (2004). Using teacher action research to promote constructivist learning environments in South Africa. South African J. Education, 24, 245–253.

Aldridge, J.M., Laugksch, R.C. & Fraser, B. J. (2006). School-level environment and outcomes-based education in South Africa. Learning Environments Research, 9, 123–147.

Brislin, R.W. (1970). Back translation for cross-cultural research. J. Cross-Cultural Psychology, 1, 185–216.

Dorman, J.P. (2001). Association between classroom environment and academicefficacy. Learning Environments Research, 4, 243–257.

Fisher, D. L., Fraser, B.J. & Bassett, J. (1995). Using a classroom environment instrument in an early childhood classroom. Australian J. Early Childhood, 20(3), 10–15.

Fisher, D., Harrison, A., Henderson, D. & Hofstein, A. (1999). Laboratory learning environments and practical tasks in senior secondary science classes. Res. Sci. Educ., 28, 353-363.

Fraser, B.J. (1990). Individualised classroom environment questionnaire. Melbourne: Australian Council for Educational Research.

Fraser, B.J. (1998a). Science learning environments: assessment, effects and determinants (pp. 527-564). In: Fraser, B.J. & Tobin, K. (Eds.). International handbook of science education. Dordrecht: Kluwer.

Fraser, B. J. (1998b). Classroom environment instruments: development, validity and applications. Learning Environments Research, 1, 7–33.

Fraser, B.J. (2002). Learning environment research: yesterday, today and tomorrow (pp. 1-25). In: Goh, S.C. & Khine, M.S. (Eds.). Studies in educational learning environments: an international perspective. Singapore: World Scientific.

Fraser, B.J. (2007). Classroom learning environments (pp. 103-124). In: Abell, S.K. & Lederman, N.G. (Eds.). Handbook of research on science education. Mahwah: Lawrence Erlbaum.

Fraser,B. J. & Chionh, J.H. (2000). Classroom environment, self-esteem, achievement and attitudes in geography and mathematics in Singapore. Paper presented at the annual meeting of the American Education Research Association. New Orleans.

Fraser, B. & McRobbie, C.J. (1995). Science laboratory classroom environments at schools and universities: a cross-national study. Educ. Res. & Evaluation, 1, 289-317.

Fraser, B., McRobbie, C.J. & Giddings, G.J. (1993). Development and cross-national validation of a laboratory classroom instrument for senior high school students. Science Education, 77, 1-24.

Gunstone, R.F. (1991). Reconstructing theory from practical experience (pp. 67-77). In: Woolnough, B.E. (Ed.). Practical science. Milton Keynes: Open University Press.

Hirata, S. & Sako, T. (1998). Perceptions of school environment among Japanese junior high school, nonattendant, and juvenile delinquent students. Learning Environments Research, 1, 321–331.

Hofstein, A. (2004). The laboratory in chemistry education: thirty years of experience with developments, implementation, and research. Chem. Educ. Res. & Practice, 5, 247-264.

Hofstein, A. & Lunetta, V,N. (2004). The laboratory in science education: foundation for the 21st century. Science Education, 88, 28-54.

Hofstein, A., Gluzman, R., Ben-Zvi, R. & Samuel, D. (1979).Classroom learning environment and student attitudes towards chemistry. Studies Educ. Eval., 5, 231–236.

Hofstein, A., Cohen, I. & Lazarowitz, R. (1996). The learning environment of high school students in chemistry and biology laboratories. Res. Sci. & Technol. Educ., 14, 103-115.

Khoo, H.S. & Fraser, B.J. (2008). Using classroom psychosocial environment in the evaluation of adult computer application courses in Singapore. Technology, Pedagogy & Education, 17, 67–81.

Kim, H. B., Fisher, D L. & Fraser, B.J. (2000). Classroom environment and teacher interpersonal behaviour in secondary science classes in Korea. Evaluation & Research Education, 14, 3–22.

Koul, R.B. & Fisher, D.L. (2005). Cultural background and students’perceptions of science classroom learning environment and teacher interpersonal behaviour in Jammu, India. Learning Environments Research, 8, 195–211.

Lee, S.U., Fraser, B.J. & Fisher, D.L. (2003). Teacher-student interactions in Korean high school science classrooms. Intern. J. Sci. & Math. Educ., 1, 67–85.

Lunetta, V.N. (1998). The school science laboratory: historical perspectives and context for contemporary teaching (pp. 349-364). In: Fraser, B. & Tobin, K. (Eds.). International handbook of science education. Dordrecht: Kluwer.

Maor, D. & Fraser, B.J. (1996). Use of classroom environment perceptions in evaluatinginquiry-based computer-assisted learning. Intern. J. Sci. Educ., 18, 401–421.

MacLeod, C. & Fraser, B.J. (2010). Development, validation and application of a modified Arabic translation of the what is happening in this class: WIHIC questionnaire. Learning Environments Research, 13, 105–125.

Martin-Dunlop, C. & Fraser, B.J. (2008). Learning environment and attitudes associated with an innovative science course designed for prospective elementary teachers. Intern. J. Sci. & Math. Educ., 6, 163–190.

McRobbie, C.J. & Fraser, B.J. (1993). Associations between student outcomes and psychosocial science environment. J. Educ. Res., 87, 78–85.

McRobbie, C.J., Roth, W.M. & Lucus, K.B. (1997).Multiple learning environments in a physics classroom. Intern. J. Educ. Res., 27, 333-342.

Moos, R.H. (1968). The assessment of the social climates of correlational institutions. J. Res. Crime & Delinquency, 5, 174-188.

Moos, R.H. & Houts, P.S. (1968). The assessment of social atmospheres of psychiatric wards. J. Abnormal Psychology, 73, 595-604.

Moss, C. & Fraser, B. J. (2001). Using environment assessments in improving teaching and learning in high school biology classrooms. Paper presented at the annual meeting of the American Educational Research Association. Seattle.

Pallant, J. (2001). SPSS Survival Manual: A step by Step Guide to Data Analysis Using SPSS for Windows (Version 10). Buckingham: Open University Press.

Pallant, J. (2005). SPSS Survival Manual: a step by Step Guide to Data Analysis Using SPSS for Windows (Version 12). Australia: Allen & Unwin.

Puacharearn, P. (2004). The effectiveness of constructivist teaching on improving learning environments in Thai secondary school science classrooms: PhD thesis. Perth: Curtin University of Technology.

Quek, C. L, Peer, J., Divaharan, S., Liu, W.C., Williams, M.D., Wong, A.F.L& Jamaludin, A. (2005). Computer mediated communication as a collaborative tool for facilitating student-centred learning in project-based classrooms. Educational Technology, 45(4), 48–51.

Riah, H. & Fraser, B. J. (1998). Chemistry learning environment and its association with students’achievement in chemistry. Paper presented at the annual meeting of the American Educational Research Association. San Diego.

Scott, R. & Fisher, D. (2004). Development, validation and application of a Malay translation of an elementary version of the questionnaire on teacher interaction. Res. Sci. Educ., 34, 173–194.

Soerjaningsih, W., Fraser, B.J. & Aldridge, J. M. (2001). Learning environment, teacher-student interpersonal behaviour and achievement among university students in Indonesia. Paper presented at the annual meeting of the Australian Association for Research in Education. Fremantle.

Tabachnick, B.G. & Fidell, L.S. (2001). Using multivariate statistics. New York: Harper Collins.

Terwel, J., Brekelmans, M., Wubbels, T. & van den Eeden, P. (1994). Gender differences in perceptions of the learning environment in Physics and Mathematics education (pp. 39-51). In: Fisher, D. (Ed.). The study of learning environments, volume 8. Perth: Curtin University of Technology.

Tobin, K. (1990). Research on science laboratory activities: in pursuit of better questions and answers to improve learning. School Science & Mathematics, 90, 403–418.

Trickett, A.G. & Moos, R.H. (1973).Social environments of junior and highschool classrooms. J. Educ. Psychology, 65, 93-102.

Walberg, H.J. & Anderson, G.J. (1968).Classroom climate and individual learning. J. Educ. Psychology, 59, 414–419.

Wolf, S.J. & Fraser, B. J. (2008).Learning environment, attitudes and achievement amongmiddle-schoolscience students using inquiry-based laboratory activities. Res. Sci. Educ., 38, 321–341.

Wong, A.L.F., Young, D.J. & Fraser, B.J. (1997). A multilevel analysis of learningenvironments andstudent attitudes. Educ. Psychology, 17, 449–468.

Wubbels, T. & Brekelmans, M. (1997). A comparison of student perceptions of Dutch physics teachers’ interpersonal behavior and their educational opinions in 1984 and 1993. J. Res. Sci. Teaching, 34, 447–466.

Wubbels, T. & Brekelmans, M. (1998).The teacher factor in the social climate of the classroom (pp. 564-580). In: Fraser, B.J. & Tobin, K.G. (Eds.). International handbook of science education. Dordrecht: Kluwer.

Wubbels, T. & Brekelmans, M. (2006). Two decades of research on teacher-student relationships in class. Intern. J. Educ. Res., 43, 6–24.

Wubbels, T., & J. Levy. (1993). Do you know what you look like: interpersonal relationships in education. London: Falmer.

Wubbels, T., Levy, J. & Brekelmans, M. (1997). Paying attention to relationships. Educational Leadership, 54(7), 82–86.

Yang, J., Huang, I.T. & Aldridge, J. (2002). Investigating factors that prevent science teachersfromcreating positive learning environments in Taiwan (pp. 217-234). In:

Goh, S.C. & Khine, M.S. (Eds.). Studies in educational learning environments: an international perspective. Singapore: World Scientific.

Yarrow, A., Millwater, J. & Fraser, B.J. (1997). Improving university and primary school classroom environments through preservice teachers’ action research. Intern. J.

Practical Experiences Professional Education, 1(1), 68–93.

APPENDIX: The actual and preferred forms of the Persian version of SLEI Note: Items number 1, 6, 11, 16, and 21 are related to Integration scale, items number 2, 7, 12, 17, and 22 are related to Open-endedness scale, items number 3, 8, 13, 18, and 23 are related to Integration scale, items number 4, 9, 14, 19, and 24 are related to Classroom Norms scale and items number 5, 10, 15, 20, and 25 are related to Material Environment scale.

تٌسلخةىشَمًةتنةغيًةگجةقواىبجردهةتٌسلخزگسً3.ب٘ةٌػطٺتٶصٮتٺ٢ੲى٬ةڱًټة٠ؿآٸةٰكْػط٤ةټٶدً٨اطع٨ؿاطؽپ ٺ٠ ذੲ٘ةـن ٮت ٬ٴؽگ.2.ةز ع٨ػاط اػ ذٍؽن٦ټا ٺٰةڱًټة٠ؿآ ٸةٰكْ ػط ٤ةټٶدً٨اطع٪٪ْ يੲَسز طٶص يټؾ طػٶ٠ ػط.4.ڱًټة٠ؿآٸةٰكْٸةٰذੲ٘ةـنثرةج٠ةتٺظةجزػاچੲٰٺٰةع٨ػاع٨ ٺ٢ੲى ٸةٰ كْ ػط طٶحٶ٠.6.ٺټة٢٪ٰاػٸاؽتٺنةوى٦ੲ٨اٶٌٺٰةڱًټة٠ؿآٸةٰكْع٨ػاط ٤ةټٶدً٨اط.5.ذما قٶٚى ػةੲهت ٬ةڱًټة٠ؿآ ،خةًټة٠ؿآ ٜةد٨ا ٤ة٠ؿ ػط.7.ٸاؽت ٸفੲڈة٨ ذٍؽن٤ةټٶدً٨اط ٺ٢ੲى ٬ةڱًټة٠ؿآ ٸةٰ كْػطؽڱټعٔټ ذصة٪ىع٨ػاط.9.ةزطٶىٺ٠ٮشماٶصة٠ؿا،ٺ٢ੲى٬ةڱًټة٠ؿآٸةٰكْػطخةًټة٠ؿا٤ة٠طٶص،٬عى٬طاطٮ٘ةه٠ٖرٸاؽتٺراؽظاػٞੲ٪ْ.8.ةتٺ٢ੲى٬ةڱًټة٠ؿآٸةٰكْػط٬عىٜةد٨اٸةٰػةْٺظةجزػا ٞੲ٪ْٺ٠ ٮـ٘ةغ٠ ٺ٢ੲى ٸػٶئز كْ ػطٮْ ٺزةؾٶضٶ٠ع٨ػاع٨.:.ًټة٠ؿآٸةٰكْ٦ੲ٨اٶٌٴ٬طٶتٺ٢مػ ؽੲلؽشًੲتٺ٢ੲى٬ةڱذهੲ٨ ْٞةر ةٲ٨آ ػط ٺٍةص.31.ٸةٰذੲ٘ةـنٜةد٨اٸاؽت٤ةټٶدً٨اطٮْٸطاٶ٠ٴخافੲٲدزعىةت ٺ٠ طٶحٶ٠ ٺشراػ ٮت ،ع٨ػاط ؿةੲ٨ ٺٰةڱًټة٠ؿآ.33.ٺ٠ِ٢ْؽڱټعٔټٮت٬ةڱًټة٠ؿآٸةٰكْػط٤ةټٶدً٨اطع٪٪ْ.32.ى٬ةڱًټة٠ؿآٸةٰكْػط٬طاط٤ٶگة٨ٶگ٤ةټٶدً٨اط،ٺ٢ੲع٪٪ْ ٺ٠ ٸػٴآ ؼ٢ح ٮ٘ةه٠ ِټ ٖر ٸاؽت اػ ٺ٨ٶگة٨ٶگ ٸةٰ.The actual form of the Persian version of SLEI
34.ٜةـػاٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْةجٺ٢ੲّٸفٶئشٸةٰىْؽ٨ٶّ ٺ٠.36.ٸٴكੲپٺٕةط٦ੲ٨اٶيماةشػٶّٺ٠ٮضًاٶط٤ةټٶدٓ٨اػماؽ٪٪ْ.35.ػفاؽ٨ ٸؽ٪٠ٴكجآ ٴ تًة٪٠ كٰةظ ٬ةڱٓټة٠مآ.37.كڱټؽ٢ٰٺجٶطٮجٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػ٤ةټٶدٓ٨اػؽ٨ٶّ ٺ٠ ة٪ّآ ٰٞ ةج ٴ ٮضطة٪ّ اف.39.زੲٚةؾنماكشاكنةشػٶّٺ٠٬ػاػ٬مةحا٤ةټٶدٓ٨اػٮج٤ةّػٶط ٬اٶعٚػ ٸةٰ ُټة٠مآ ٴٮضنف ٖٶ٢ؾ٠ ٺٰةڱٓټة٠ما ٸةٰؽ٪ٰػ ٜةد٨ا اف38.ٸةٰٸفٶئشماٺٓټة٠مآٸةٰزੲٚةؾنٺٟفػفػ٬ؽّٮضوگٞੲ٪ْ ٺ٠ ٬ػةوضًا ٺ٢ੲّ ىْ.3:.ٞٔسٺٕةطٺ٪٢ټاٖٶٕاٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػزًة٠كن.21.ؽ٨فاػ ٺخًة٪٠ة٨ زੲؾٙٴ ٺٰةڱٓټة٠مآ ذاهੲٲدش.23.ٸٴفؽ٪٨اٶشٺ٠ٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػ٤ةټٶدٓ٨اػؽ٪٪ْ بةٍس كڱټؽٔټ ِ٢ْ.22.ੲّ٬ةڱٓټة٠مآٸةٰىْفػذةٓټة٠مآ٤ةټٶدٓ٨اػ،ٺ٢ؽ٪ٰػ ٺ٠ ٜةد٨ا اف ٺ٨ٶگة٨ٶگ.24.فةْ ذةؼٶٙٶ٠ ةجٺ٢ੲّ ٸفٶئش ىةٰ ىْ فػ ٬ؽّ ثصج ذةؼٶٙٶ٠ؽ٪ضٍٰ ذٴةوض٠ ٠ةْ ٺ٢ੲّ ٬ةڱٓټة٠مآ ٸةٰ ىْ فػ ٬ؽّ.26.ٮْػفاػػٶحٴٺ٢ْ٦ੲ٨ٶيٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػؽ٪ضٍٰ ةٲ٨آ ما ٸٴكੲپ ٮج لظٶ٠ ٤ةټٶدٓ٨اػ.25.ػفاؽ٨ ٺخًة٪٠ٺٔټهੲن ٝټاكّ ٺ٢ੲّ ٬ةڱٓټة٠مآ.ٮضنكگ ٸةٛنزًا ػكً فةੲٍج ةٰ ٤ةضٍ٠م ٴ ٜكگ ةٰ ٤ةضٍجةش ٴ ٮضّاػ ٸا.27.ٸةٰىْفػٺٍْةج٤اٶضجةشؽْٓٺ٠ٖٶٟٸػةټمٺ٨ة٠مؽّ ة٪ّآ ٺ٢ੲّ ٬ةڱٓټة٠مآ.29.ػفٶ٠فػٮْزًاػةضًا٦ټاٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػټكضٲجػكੲگ ٺ٠ ٞੲ٢ٗش ذةٓټة٠مآ ٜةد٨ا ٬اف ٦.28.ٞੲٰػٺ٠ٜةد٨اٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػٮْٺټةٰفةْٸةٰىْفػ٬ؽّٮضوگٸةٰٸفٶئشماة٠كضٲجَفػٮجؽ٪ْ ٺ٠ ِ٢ْ ٺ٢ੲّ ٸفٶئش.2:.ٸاكجافٺ٪٢ټاذةٔ٨ػةضًاذةٓټة٠مآغٴكّما٘خيؽٰػ ٺ٠ رੲٙٶش ٤ةټٶدٓ٨اػ.41.ةڱٓټة٠مآٜةد٨اٴ٤ػكْفةْٸاكجٺجاؿحٝੲص٠ٺ٢ੲّ٬زًةٰ زੲٚةؾن.43.ةجٺجٶطٸفةٔ٢ٰ٤ةټٶدٓ٨اػٺ٢ੲّ٬ةڱٓټة٠مآٸةٰىْفػؽ٨فاػ كڱټؽٔټ.42.ٞੲ٢ٗش ذةٓټة٠مآ ٤ػكج ُੲپ٬اف ٦ټكضٲج ػفٶ٠ فػ ٤ةټٶدٓ٨اػؽ٨كੲگ ٺ٠.44.ىْفػ٬ؽّٮضوگٸةٰثصجٴٺ٢ੲّ٬ةڱٓټة٠مآفػفةّْ ٸفٶئشؽ٨فاؽ٨ ٰٞ ةج ٺٟةخشفا چੲٰ ٺ٢ੲ.46.ةج كڱټػ ٸةٰ ىْ ةج ٮٍټةٌ٠ فػ ٺ٢ੲّ ٬ةڱٓټة٠مآ ٸةٰ ىْؽ٨ٶّ ٺ٠ زټكټؽ٠ ٴ ٖكض٪ْ ٸكش قةوّ ٦ੲ٨اٶي.45.اف ٺٰٴكگ ةټ ٴٸػكن فةْ ٸاكج ٺنةْ ٸةٛن ٺ٢ੲّ ٬ةڱٓټة٠مآؽّةج ٺ٠ افاػ.

The preferred form of the Persian version of SLEI

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INVESTIGATION OF

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DEMONSTRATION OF DAMPED ELECTRICAL OSCILLATIONS

Elena Grebenakova, Stojan Manolev

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CHEMISTRY: BULGARIAN JOURNAL OF SCIENCE EDUCATION ANNUAL CONTENTS / VOLUME 29, 2020 ПРИРОДНИТЕ НАУКИ В ОБРАЗОВАНИЕТО ГОДИШНО СЪДЪРЖАНИЕ / ГОДИНА XXIX, 2020

СТРАНИЦИ / PAGES КНИЖКА 1 / NUMBER 1: 1 – 140 КНИЖКА 2 / NUMBER 2: 141 – 276 КНИЖКА 3 / NUMBER 3: 277 – 432 КНИЖКА 4 / NUMBER 4: 433 – 548 КНИЖКА 5 / NUMBER 5: 549 – 660 КНИЖКА 6 / NUMBER 6: 661 – 764 EDUCATION: THEORY AND PRACTICE 11 – 18 Физиката – навсякъде около нас [Physics аround Us: The Honey] / Пенка Василева/ Penka Vasileva 19 – 26 Молекулите на удоволствието [The Pleasure Molecules: Introduc- tory Information] / Веселина Янкова, Снежана Демирова, Цветанка Мит

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JACOB’S LADDER FOR THE PHYSICS CLASSROOM

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COMPARATIVE PERFORMANCE AND DIGESTIBILITY OF NUTRIENTS IN AFSHARI AND GHEZEL RAM LAMBS

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THE DAY OF THE INDUCTANCE: PROBLEMS OF THE 7

Todor M. Mishonov, Riste Popeski-Dimovski, Leonora Velkoska, Iglika M. Dimitrova, Vassil N. Gourev, Aleksander P. Petkov, Emil G. Petkov, Albert M. Varonov

MATHEMATICAL MODELING OF 2019 NOVEL CORONAVIRUS (2019 – NCOV) PANDEMIC IN NIGERIA

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ВОДОРОДЪТ – НАЙ-ЕКОЛОГИЧНО ЧИСТОТО ГОРИВО

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НАУЧНОТО ПРИЗНАНИЕ

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Lyubomir Lazov, Hristina Deneva, Galina Gencheva

ФИЗИКОХИМИЧНАТА ШКОЛА НА РОСТИСЛАВ КАИШЕВ В ПЕРИОДА 1950 – 1957 (СПОМЕНИ НА ЕДИН СВИДЕТЕЛ)

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2019 година
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LASER MICRO-PERFORATION AND FIELDS OF APPLICATION

Hristina Deneva, Lyubomir Lazov, Edmunds Teirumnieks

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2019 − THE INTERNATIONAL YEAR OF THE PERIODIC TABLE OF CHEMICAL ELEMENTS

Maria Atanassova, Radoslav Angelov, Dessislava Gerginova, Alexander Zahariev

ТЕХНОЛОГИЯ

Б. В. Тошев

CHEMISTRY: BULGARIAN JOURNAL OF SCIENCE EDUCATION ANNUAL CONTENTS / VOLUME 28, 2019 ХИМИЯ. ПРИРОДНИТЕ НАУКИ В ОБРАЗОВАНИЕТО ГОДИШНО СЪДЪРЖАНИЕ / ГОДИНА XXVIII, 2019

СТРАНИЦИ / PAGES КНИЖКА 1 / NUMBER 1: 1 – 160 КНИЖКА 2 / NUMBER 2: 161 – 280 КНИЖКА 3 / NUMBER 3: 281 – 424 КНИЖКА 4 / NUMBER 4: 425 – 552 КНИЖКА 5 / NUMBER 5: 553 – 680 КНИЖКА 6 / NUMBER 6: 681 – 832

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ЗЕЛЕНА ХИМИЯ В УЧИЛИЩНАТА ЛАБОРАТОРИЯ

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ON THE GENETIC TIES BETWEEN EUROPEAN NATIONS

Jordan Tabov, Nevena Sabeva-Koleva, Georgi Gachev

SCIENCE CAN BRING PEOPLE TOGETHER

Nadya Kantareva-Baruh

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CHEMOMETRIC ANALYSIS OF SCHOOL LIFE IN VARNA

Radka Tomova, Petinka Galcheva, Ivajlo Trajkov, Antoaneta Hineva, Stela Grigorova, Rumyana Slavova, Miglena Slavova

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Ивелин Кулев

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2019: ДВЕ ВАЖНИ СЪБИТИЯ

На 20 декември 2017 г. Общото събрание на Организацията на обединени- те нации (ООН), на своята 72-ра сесия, прокламира годината 2019 за „Между- народна година на Периодичната таблица на химичните елементи“ (IYPT 2019). Съгласно представите на Томас Кун раз- витието на „нормалната наука“ става на основата на малък брой основополагащи научни резултати, наречени „научни пара- дигми“. За химията научните парадигми са три: (1) откриването на кислорода от Лавоазие; (

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Elena Karashtranova, Nikolay Karashtranov, Vladimir Vladimirov

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Elena Karashtranova, Nikolay Karashtranov, Nadezhda Borisova, Dafina Kostadinova

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2018 година
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ЗДРАВЕ И ОКОЛНА СРЕДА

Кадрие Шукри, Светлана Великова, Едис Мехмед

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DESIGN AND DOCKING STUDIES OF HIS-LEU ANALOGUES AS POTENTIOAL ACE INHIBITORS

Rumen Georgiev, Tatyana Dzimbova, Atanas Chapkanov

X-RAY DIFFRACTION STUDY OF M Zn(TeО )

Kenzhebek T. Rustembekov, Mitko Stoev, Aitolkyn A. Toibek

ELECTROCHEMICAL IMPEDANCE STUDY OF BSCCO (2212) CUPRATE CERAMIC ADDITIVE TO THE ZINC ELECTRODE IN Ni-Zn BATTERIES

A. Vasev, P. Lilov, G. Ivanova, Y. Marinov, A. Stoyanova, V. Mikli, A. Stoyanova-Ivanova

CALIBRATION OF GC/MS METHOD FOR DETERMINATION OF PHTHALATES

N. Dineva, I. Givechev, D. Tanev, D. Danalev

SONOCHEMICAL SYNTHESIS OF 4-AMINOANTIPYRINE SCHIFF BASES A ND EVALUATION OF THEIR ANTIMICROBIAL, ANTI-TYROSINASE AND DPPH SCAVENGING ACTIVITIES

Maya Chochkova, Boyka Stoykova, Iva Romanova, Petranka Petrova, Iva Tsvetkova, Hristo Najdenski, Lubomira Nikolaeva- Glomb, Nadya Nikolova, Galya Ivanova, Atanas Chapkanov, Tsenka Milkova, Martin Štícha, Ivan Nemec

ELECTROSYNTHESIS OF CADMIUM SELENIDE NANOPARTICLES WITH SIMULTANEOUS EXTRACTION INTO P-XYLENE

S. S. Fomanyuk, V. O. Smilyk, G. Y. Kolbasov, I. A. Rusetskyi, T. A. Mirnaya

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CHEMISTRY: BULGARIAN JOURNAL OF SCIENCE EDUCATION ПРИРОДНИТЕ НАУКИ В ОБРАЗОВАНИЕТО VOLUME 27 / ГОДИНА XXVII, 2018 ГОДИШНО СЪДЪРЖАНИЕ СТРАНИЦИ / PAGES КНИЖКА 1 / NUMBER 1: 1 – 152 КНИЖКА 2 / NUMBER 2: 153 – 312 КНИЖКА 3 / NUMBER 3: 313 – 472 КНИЖКА 4 / NUMBER 4: 473 – 632 КНИЖКА 5 / NUMBER 5: 633 – 792 КНИЖКА 6 / NUMBER 6: 793 – 952 КНИЖКА 1 / NUMBER 1: 1 – 152 КНИЖКА 2 / NUMBER 2: 153 – 312 КНИЖКА

(South Africa), A. Ali, M. Bashir (Pakistan) 266 – 278: j-j Coupled Atomic Terms for Nonequivalent Electrons of (n-1)fx and nd1 Configurations and Correlation with L-S Terms / P. L. Meena (India) 760 – 770: Methyl, тhe Smallest Alkyl Group with Stunning Effects / S. Moulay 771 – 776: The Fourth State of Matter / R. Tsekov

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ИМОБИЛИЗИРАНЕ НА ФРУКТОЗИЛТРАНСФЕРАЗА ВЪРХУ КОМПОЗИТНИ ФИЛМИ ОТ ПОЛИМЛЕЧНА КИСЕЛИНА, КСАНТАН И ХИТОЗАН

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ELECTRICAL IMPEDANCE SPECTROSCOPY OF GRAPHENE-E7 LIQUID-CRYSTAL NANOCOMPOSITE

Todor Vlakhov, Yordan Marinov, Georgi. Hadjichristov, Alexander Petrov

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RHEOLOGICAL PROPERTIES OF BATTER FOR GLUTEN FREE BREAD

G. Zsivanovits, D. Iserliyska, M. Momchilova, M. Marudova

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Y. Evtimova, V. Mihailova, L. A. Atanasova, N. G. Hristova-Avakumova, M. V. Panayotov, V. A. Hadjimitova

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H O O H H H C H 104.45° 108.9° H A B

Figure 1. A – Water; B – Methanol Indeed, the literature survey reveals a trove of reports on methylation of such molecules and the effects of thus-tethered methyl groups were illustrated (Barreiro et al., 2011). An astounding fact is the link between the methyl group in methylated DNA and the cancer development (Newberne & Rogers, 1986; Wajed et al., 2001); methylation of biological molecules contributes to the regulation of gene expression and protein function, and RNA proces

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PARAMETRIC INTERACTION OF OPTICAL PULSES IN NONLINEAR ISOTROPIC MEDIUM

A. Dakova, V. Slavchev, D. Dakova, L. Kovachev

ДЕЙСТВИЕ НА ГАМА-ЛЪЧИТЕ ВЪРХУ ДЕЗОКСИРИБОНУКЛЕИНОВАТА КИСЕЛИНА

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RADIATION PROTECTION

Natasha Ivanova, Bistra Manusheva

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PHYSICS IS AN EVER YOUNG SCIENCE

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Георги Върбанов, Радостин Михайлов, Деница Симеонова, Йорданка Енева

NATURAL RADIONUCLIDES IN DRINKING WATER

Natasha Ivanova, Bistra Manusheva

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АДАПТИРАНЕ НА ОБРАЗОВАНИЕТО ДНЕС ЗА УТРЕШНИЯ ДЕН

И. Панчева, М. Недялкова, П. Петков, Х. Александров, В. Симеонов

STRUCTURAL ELUCIDATION OF UNKNOWNS: A SPECTROSCOPIC INVESTIGATION WITH AN EMPHASIS ON 1D AND 2D

Vittorio Caprio, Andrew S. McLachlan, Oliver B. Sutcliffe, David C. Williamson, Ryan E. Mewis

INTEGRATED ENGINEERING EDUCATION: THE ROLE OF ANALYSIS OF STUDENTS’ NEEDS

Veselina Kolarski, Dancho Danalev, Senia Terzieva

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ZAGREB CONNECTION INDICES OF TiO NANOTUBES

Sohaib Khalid, Johan Kok, Akbar Ali, Mohsin Bashir

2017 година
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GEOECOLOGICAL ANALYSIS OF INDUSTRIAL CITIES: ON THE EXAMPLE OF AKTOBE AGGLOMERATION

Zharas Berdenov, Erbolat Mendibaev, Talgat Salihov, Kazhmurat Akhmedenov, Gulshat Ataeva

TECHNOGENESIS OF GEOECOLOGICAL SYSTEMS OF NORTHEN KAZAKHSTAN: PROGRESS, DEVELOPMENT AND EVOLUTION

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Baldomero Herrera-González Universidad Autónoma del Estado de México, Mexico

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4/2013: сп. „Философия“ Портфолио на преподавателя и студента по „Философия на oбразованието“ (за академич- ни цели) / Яна Рашева-Мерджанова „Философия на oбразованието“ има своите хилядолетни опити и резултати. Изследването на тази духовна вселена води до структура и до обособяването на активности, които са съответни, от една страна, на философскообразователното мислене и култура, а от друга страна – са въвеж- дащи в тяхното овладяване. За ролята на етиката в ученията на П. Рикьор и Е. Лев

2013 година
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DIFFERENTIAL TEACHING IN SCHOOL SCIENCE EDUCATION: CONCEPTUAL PRINCIPLES

G. Yuzbasheva Kherson Academy of Continuing Education, Ukraine

АНАЛИЗ НА ПОСТИЖЕНИЯТА НА УЧЕНИЦИТЕ ОТ ШЕСТИ КЛАС ВЪРХУ РАЗДЕЛ „ВЕЩЕСТВА И ТЕХНИТЕ СВОЙСТВА“ ПО „ЧОВЕКЪТ И ПРИРОДАТА“

Иваничка Буровска, Стефан Цаковски Регионален инспекторат по образованието – Ловеч

HISTORY AND PHILOSOPHY OF SCIENCE: SOME RECENT PERIODICALS (2013)

Chemistry: Bulgarian Journal of Science Education

45. НАЦИОНАЛНА КОНФЕРЕНЦИЯ НА УЧИТЕЛИТЕ ПО ХИМИЯ

„Образователни стандарти и природонаучна грамотност“ – това е темата на състоялата се от 25 до 27 октомври 2013 г. в Габрово 45. Национална конфе- ренция на учителите по химия с международно участие, която по традиция се проведе комбинирано с Годишната конференция на Българското дружество за химическо образование и история и философия на химията. Изборът на темата е предизвикан от факта, че развиването на природонаучна грамотност е обща тенденция на реформите на учебните програми и главна

Книжка 5

ЗА ХИМИЯТА НА БИРАТА

Ивелин Кулев

МЕТЕОРИТЪТ ОТ БЕЛОГРАДЧИК

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

Книжка 4
RECASTING THE DERIVATION OF THE CLAPEYRON EQUATION INTO A CONCEPTUALLY SIMPLER FORM

Srihari Murthy Meenakshi Sundararajan Engineering College, India

CHEMICAL REACTIONS DO NOT ALWAYS MODERATE CHANGES IN CONCENTRATION OF AN ACTIVE COMPONENT

Joan J. Solaz-Portolés, Vicent Sanjosé Universitat de Valènciа, Spain

POLYMETALLIC COMPEXES: CV. SYNTHESIS, SPECTRAL, THERMOGRAVIMETRIC, XRD, MOLECULAR MODELLING AND POTENTIAL ANTIBACTERIAL PROPERTIES OF TETRAMERIC COMPLEXES OF Co(II), Ni(II), Cu(II), Zn(II), Cd(II) AND Hg(II) WITH OCTADENTATE AZODYE LIGANDS

Bipin B. Mahapatra, S. N. Dehury, A. K. Sarangi, S. N. Chaulia G. M. Autonomous College, India Covt. College of Engineering Kalahandi, India DAV Junior College, India

ПРОФЕСОР ЕЛЕНА КИРКОВА НАВЪРШИ 90 ГОДИНИ

CELEBRATING 90TH ANNIVERSARY OF PROFESSOR ELENA KIRKOVA

Книжка 3
SIMULATION OF THE FATTY ACID SYNTHASE COMPLEX MECHANISM OF ACTION

M.E.A. Mohammed, Ali Abeer, Fatima Elsamani, O.M. Elsheikh, Abdulrizak Hodow, O. Khamis Haji

FORMING OF CONTENT OF DIFFERENTIAL TEACHING OF CHEMISTRY IN SCHOOL EDUCATION OF UKRAINE

G. Yuzbasheva Kherson Academy of Continuing Education, Ukraine

ИЗСЛЕДВАНЕ НА РАДИКАЛ-УЛАВЯЩА СПОСОБНОСТ

Станислав Станимиров, Живко Велков

Книжка 2
Книжка 1
COLORFUL EXPERIMENTS FOR STUDENTS: SYNTHESIS OF INDIGO AND DERIVATIVES

Vanessa BIANDA, Jos-Antonio CONSTENLA, Rolf HAUBRICHS, Pierre-Lonard ZAFFALON

OBSERVING CHANGE IN POTASSIUM ABUNDANCE IN A SOIL EROSION EXPERIMENT WITH FIELD INFRARED SPECTROSCOPY

Mila Ivanova Luleva, Harald van der Werff, Freek van der Meer, Victor Jetten

ЦАРСКАТА ПЕЩЕРА

Рафаил ПОПОВ

УЧИЛИЩНИ ЛАБОРАТОРИИ И ОБОРУДВАНЕ SCHOOL LABORATORIES AND EQUIPMENT

Учебни лаборатории Илюстрации от каталог на Franz Hugershoff, Лайциг, притежаван от бъдещия

2012 година
Книжка 6
ADDRESING STUDENTS’ MISCONCEPTIONS CONCERNING CHEMICAL REACTIONS AND SYMBOLIC REPRESENTATIONS

Marina I. Stojanovska, Vladimir M. Petruševski, Bojan T. Šoptrajanov

АНАЛИЗ НА ПОСТИЖЕНИЯТА НА УЧЕНИЦИТЕ ОТ ПЕТИ КЛАС ВЪРХУ РАЗДЕЛ „ВЕЩЕСТВА И ТЕХНИТЕ СВОЙСТВА“ ПО ЧОВЕКЪТ И ПРИРОДАТА

Иваничка Буровска, Стефан Цаковски Регионален инспекторат по образованието – Ловеч

ЕКОТОКСИКОЛОГИЯ

Васил Симеонов

ПРОФ. МЕДОДИЙ ПОПОВ ЗА НАУКАТА И НАУЧНАТА ДЕЙНОСТ (1920 Г.)

Проф. Методий Попов (1881-1954) Госпожици и Господа студенти,

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КОНЦЕПТУАЛНА СХЕМА НА УЧИЛИЩНИЯ КУРС П О ХИМИЯ – МАКР О СКОПСКИ ПОДХОД

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ROLE OF ULTRASONIC WAVES TO STUDY MOLECULAR INTERACTIONS IN AQUEOUS SOLUTION OF DICLOFENAC SODIUM

Sunanda S. Aswale, Shashikant R. Aswale, Aparna B. Dhote Lokmanya Tilak Mahavidyalaya, INDIA Nilkanthrao Shinde College, INDIA

SIMULTANEOUS ESTIMATION OF IBUPROFEN AND RANITIDINE HYDROCHLORIDE USING UV SPECTROPHOT O METRIC METHOD

Jadupati Malakar, Amit Kumar Nayak Bengal College of Pharmaceutical Sciences and Research, INDIA

GAPS AND OPPORTUNITIES IN THE USE OF REMOTE SENSING FOR SOIL EROSION ASSESSMENT

Mila Ivanova Luleva, Harald van der Werff, Freek van der Meer, Victor Jetten

РАДИОХИМИЯ И АРХЕОМЕТРИЯ: ПРО Ф. ДХН ИВЕЛИН КУЛЕВ RADIOCHEMISTRY AND ARCHEOMETRY: PROF. IVELIN KULEFF, DSc

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

Книжка 4
TEACHING THE CONSTITUTION OF MATTER

Małgorzata Nodzyńska, Jan Rajmund Paśko

СЪСИРВАЩА СИСТЕМА НА КРЪВТА

Маша Радославова, Ася Драгоева

CATALITIC VOLCANO

Emil Lozanov

43-ТА МЕЖДУНАРОДНА ОЛИМПИАДА ПО ХИМИЯ

Донка ТАШЕВА, Пенка ЦАНОВА

ЮБИЛЕЙ: ПРОФ. ДХН БОРИС ГЪЛЪБОВ JUBILEE: PROF. DR. BORIS GALABOV

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ПЪРВИЯТ ПРАВИЛНИК ЗА УЧЕБНИЦИТЕ (1897 Г.)

Чл. 1. Съставянето и издаване на учебници се предоставя на частната инициа- тива. Забележка: На учителите – съставители на учебници се запрещава сами да разпродават своите учебници. Чл. 2. Министерството на народното просвещение може да определя премии по конкурс за съставяне на учебници за горните класове на гимназиите и специ- алните училища. Чл. 3. Никой учебник не може да бъде въведен в училищата, ако предварително не е прегледан и одобрен от Министерството на народното просвещение. Чл.

JOHN DEWEY: HOW WE THINK (1910)

John Dewey (1859 – 1952)

ИНФОРМАЦИЯ ЗА СПЕЦИАЛНОСТИТЕ В ОБЛАСТТА НА ПРИРОДНИТЕ НАУКИ В СОФИЙСКИЯ УНИВЕРСИТЕТ „СВ. КЛИМЕНТ ОХРИДСКИ“ БИОЛОГИЧЕСКИ ФАКУЛТЕТ

1. Биология Студентите от специалност Биология придобиват знания и практически умения в областта на биологическите науки, като акцентът е поставен на организмово равнище. Те се подготвят да изследват биологията на организмите на клетъчно- организмово, популационно и екосистемно ниво в научно-функционален и прило- жен аспект, с оглед на провеждане на научно-изследователска, научно-приложна, производствена и педагогическа дейност. Чрез широк набор избираеми и факул- тативни курсове студентите

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УЧИТЕЛИТЕ ПО ПРИРОДНИ НАУКИ – ЗА КОНСТРУКТИВИСТКАТА УЧЕБНА СРЕДА В БЪЛГАРСКОТО УЧИЛИЩЕ

Адриана Тафрова-Григорова, Милена Кирова, Елена Бояджиева

ПОВИШАВАНЕ ИНТЕРЕСА КЪМ ИСТОРИЯТА НА ХИМИЧНИТЕ ЗНАНИЯ И ПРАКТИКИ ПО БЪЛГАРСКИТЕ ЗЕМИ

Людмила Генкова, Свобода Бенева Българско дружество за химическо образование и история и философия на химията

НАЧАЛО НА ПРЕПОДАВАНЕТО НА УЧЕБЕН ПРЕДМЕТ ХИМИЯ В АПРИЛОВОТО УЧИЛИЩЕ В ГАБРОВО

Мария Николова Национална Априловска гимназия – Габрово

ПРИРОДОНАУЧНОТО ОБРАЗОВАНИЕ В БЪЛГАРИЯ – ФОТОАРХИВ

В един дълъг период от време гимназиалните учители по математика, физика, химия и естествена

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„МАГИЯТА НА ХИМИЯТА“ – ВЕЧЕР НА ХИМИЯТА В ЕЗИКОВА ГИМНАЗИЯ „АКАД. Л. СТОЯНОВ“ БЛАГОЕВГРАД

Стефка Михайлова Езикова гимназия „Акад. Людмил Стоянов“ – Благоевград

МЕЖДУНАРОДНАТА ГОДИНА НА ХИМИЯТА 2011 В ПОЩЕНСКИ МАРКИ

Б. В. Тошев Българско дружество за химическо образование и история и философия на химията

ЗА ПРИРОДНИТЕ НАУКИ И ЗА ПРАКТИКУМА ПО ФИЗИКА (Иванов, 1926)

Бурният развой на естествознанието във всичките му клонове през XIX –ия век предизвика дълбоки промени в мирогледа на културния свят, в техниката и в индустрията, в социалните отношения и в държавните интереси. Можем ли днес да си представим един философ, един държавен мъж, един обществен деец, един индустриалец, просто един културен човек, който би могъл да игнорира придобив- ките на природните науки през последния век. Какви ужасни катастрофи, какви социални сътресения би сполетяло съвре

Книжка 1
MURPHY’S LAW IN CHEMISTRY

Milan D. Stojković

42

Донка Ташева, Пенка Цанова

СЕМЕЙНИ УЧЕНИЧЕСКИ ВЕЧЕРИНКИ

Семейството трябва да познава училишето и училишето трябва да познава семейството. Взаимното познанство се налага от обстоятелството, че те, макар и да са два различни по природата си фактори на възпитанието, преследват една и съща проста цел – младото поколение да бъде по-умно, по-нравствено, физически по-здраво и по-щастливо от старото – децата да бъдат по-щастливи от родителите

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