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1.
A test for measuring science attitudes, named Test of Science Related Attitudes (TOSRA), was initially developed in Australia by Fraser (1977, 1978). This study investigated the crosscultural validity of this instrument when used with American high school students. Three hundred and thirty-six students (12th and 11th graders) in three high schools in suburban Chicago took the test. The results of the study, confirming previous validation of the test, revealed that the seven subscales of TOSRA were, in general, highly reliable. The discriminant validity of each of these scales, however, was found to be generally low. The item/scale correlation for all but four items of the test met Shrigley's (Journal of Research in Science Teaching, 20 (1), 87–89, 1983) criterion of being more than 0.30. The results of the principal components with varimax rotation did not support the distinctiveness of the subscale structure of the test.  相似文献   

2.
This study is part of a large-scale project focused on ‘Qatari students' Interest in, and Attitudes toward, Science’ (QIAS). QIAS aimed to gauge Qatari student attitudes toward science in grades 3–12, examine factors that impact these attitudes, and assess the relationship between student attitudes and prevailing modes of science teaching in Qatari schools. This report details the development and validation of the ‘Arabic-Speaking Students' Attitudes toward Science Survey’ (ASSASS), which was specifically developed for the purposes of the QIAS project. The theories of reasoned action and planned behavior (TRAPB) [Ajzen, I., & Fishbein, M. (2005). The influence of attitudes on behavior. In D. Albarracín, B. T. Johnson, & M. P. Zanna (Eds.), The handbook of attitudes (pp. 173–221). Mahwah, NJ: Erlbaum] guided the instrument development. Development and validation of the ASSASS proceeded in 3 phases. First, a 10-member expert panel examined an initial pool of 74 items, which were revised and consolidated into a 60-item version of the instrument. This version was piloted with 369 Qatari students from the target schools and grade levels. Analyses of pilot data resulted in a refined version of the ASSASS, which was administered to a national probability sample of 3027 participants representing all students enrolled in grades 3–12 in the various types of schools in Qatar. Of the latter, 1978 students completed the Arabic version of the instrument. Analyses supported a robust, 5-factor model for the instrument, which is consistent with the TRAPB framework. The factors were: Attitudes toward science and school science, unfavorable outlook on science, control beliefs about ability in science, behavioral beliefs about the consequences of engaging with science, and intentions to pursue science.  相似文献   

3.
This study explored the influence of experimental goal setting and planning on the attitudes toward science, self-efficacy, inquiry performance, and achievement of students with low academic performance. A total of 71 students aged 16–18 were randomly divided into a treatment group (with goal setting and planning) and a control group (without goal setting and planning). A microcomputer-based laboratory focused on Boyle’s Law, coupled with an inquiry worksheet, was assigned. Based on Winne and Hadwin’s model of self-regulated learning, scaffolding was offered to the treatment group to promote goal setting and planning. Data were collected from the worksheet, the Attitudes toward Science Scale, the Self-efficacy of Scientific Inquiry scale, and the Boyle’s Law Conceptual Test. The results showed that both the treatment and control groups improved significantly from the pre- to post-conceptual tests. In the treatment group, the male students gained significantly more conceptual knowledge than the female students. Regarding attitudes toward science, the male students’ scores on the post-test were higher than those of the females. It is concluded that the male students were more positive regarding goal setting and planning in the inquiry activity, whereas the female students did not benefit as much.  相似文献   

4.
This study used a modified version of the Perception of Science Classes Survey (Kardash & Wallace, 2001) to survey 7,885 grade school and high school students in different provinces in the Philippines regarding their perceptions of their science classes. Factor analysis revealed five dimensions of the students ’ perceptions that relate to different aspects of the teacher ’s pedagogy and the learning environment created by the teachers: (a) Learner-Centered Pedagogy, (b) Science Inquiry Activities, (c) Positive Affect and Attitudes, (d) Grades as Feedback, and (e) Support for Self-Learning and Effort. Factor scores were compared across grade levels and genders. The results indicate a decrease in science inquiry activities and the use of grades as feedback in the higher grades, but an increase in support for self-learning and effort, and also positive affects and attitudes. These trends were discussed in relation to possible problems related to teacher practices that may contribute to low student achievement levels in science. This research was part of a research project commissioned by the Japan International Cooperation Agency-Philippines.  相似文献   

5.
An investigation of relationships between students’ attitudes towards chemistry and their perceived laboratory environments was carried out using a sample of 1592 final year secondary school students in 56 chemistry classes in 28 randomly selected co‐educational government schools. This study is distinctive in that it marks the beginning of science classroom environment research in Singapore and because it pioneers the use of the Hierarchical Linear Model (HLM) in learning environment research. The Chemistry Laboratory Environment Inventory (CLEI), a modified version of the Science Laboratory Environment Inventory, was used to assess students’ perceptions of the learning environment in chemistry laboratory classes. Students’ chemistry‐related attitudes were assessed using the Questionnaire on Chemistry‐related Attitudes (QOCRA), which is based on the Test of Science‐related Attitudes. Environment‐attitude relationships were examined using conventional multiple regression analysis and the more rigorous HLM. Positive associations emerged between the nature of the chemistry laboratory classroom environment and the students’ attitudinal outcomes  相似文献   

6.
The relationships among college student science achievement, engaged time (observed and perceived), and personal characteristics of academic aptitude, reasoning ability, attitude toward science, and locus of control were investigated. Measures of personal characteristics were obtained from the subjects (N= 76) of a private, liberal arts junior college before observations began in the lecture classes for the quarter. Instruments used to measure personal characteristics were Scholastic Aptitude Test, Test of Logical Thinking, Test of Scientific Attitude, and Leven-son's Multidimensional View of Locus of Control. Based on a random selection procedure, student engaged time was observed at least ten times for 11 lectures. Achievement tests were constructed and validated for the biology classes. Data were analyzed by multiple regression procedures. The average achievement scores were positively related to academic aptitude and reasoning ability. Positive relationships were found between observed engaged time and academic aptitude and a negative relationship was found between observed engaged time and reasoning ability. Also a positive relationship was found between perceived engaged time and achievement. Pearson product-moment correlations between achievement and observed engaged time were significant as were the correlations between perceived engaged time and achievement. Measure of engaged time (observed and perceived) were also related to each other. The study's data indicate that students who were observed to be engaged were low in reasoning ability or high in academic aptitude. Those who perceived themselves as being engaged achieved more. College instructors who have knowledge of student academic aptitude and reasoning ability may use this knowledge to improve achievement. Engaged time measures were significantly related to achievement, which indicates an instructor should endeavor to keep the students as engaged as possible to enhance achievement. Students who are engaged or pay attention or perceived they are engaged or paying attention during lecture classes achieve more than students who are observed as nonengaged or perceive themselves as nonengaged.  相似文献   

7.
Students’ attitudes toward chemistry lessons in school are important dependent variables in curriculum evaluation. Although a variety of instruments have been developed by researchers to evaluate student attitudes, they are plagued with problems such as the lack of theoretical rationale and of empirical evidence to support the construct validity of data. This paper describes a study of students’ attitudes toward chemistry lessons in Hong Kong secondary schools. One of the scales in the Test of Science‐Related Attitudes developed by Fraser was modified to form an Attitude Toward Chemistry Lessons Scale (ATCLS). The construction of the ATCLS was based on a theoretical model with four dimensions: liking for chemistry theory lessons, liking for chemistry laboratory work, evaluative beliefs about school chemistry, and behavioural tendencies to learn chemistry. The arguments for inclusion of these four dimensions are presented. The final version of ATCLS was administered to 954 students. The results of confirmatory factor analysis indicated that there was a good fit between the hypothesised model and the observed data.  相似文献   

8.
兴趣是学好科学的动力和保证。初中科学课程是自然科学入门课程,在初中科学教育体系中是八至九年级分科科学课程的基础课程。如果学生对其感兴趣,将会主动认真地学习,为今后的理科分科学习打下良好的基础;如果不感兴趣,不仅会视学习如苦役,还将影响今后的理科学习。因此,在初中科学教学中培养学生学习科学的兴趣具有现实的意义。文章从六个方面阐述如何培养学生的学习兴趣,让学生喜欢科学课,进而转化为学习科学的动力。  相似文献   

9.
This sequential methodologic elaboration study investigated differences between the middle school and the junior high instructional strategies and the effects on adolescent attitude toward science in school and science achievement. Subjects of the quantitative phase were 570 seventh- and eighth-grade students in one school in an urban school district in the midwest United States during a transition year from junior high to middle school. Germann's Attitude toward Science in School Assessment and the school district's Benchmark Exams were employed to measure student pre- and posttest attitude and achievement. Variations within grade level, gender, race, general ability, and socioeconomic group were evaluated. Results of split plots revealed no significant differences in science attitude between the experimental middle school group and the junior high control group at this phase. However, there was significant improvement in attitude in both seventh-grade populations, but no change in attitude in either eighth-grade population. No significant differences in attitude were found between males and females, Caucasian students and students of color, or students of different ability or socioeconomic groups. Significant increases in science achievement were revealed in the seventh-grade junior high control group, the eighth-grade middle school, and the eighth-grade junior high, but not in the seventh-grade middle school. No significant differences in achievement were found between males and females. Caucasians scored significantly higher in achievement than students of color. Average and high ability students scored significantly higher pretest to posttest, but low ability students did not. High ability students scored significantly higher than both average and low ability groups. There was significant improvement in science achievement for students in the sufficient socioeconomic status group, but not in the low socioeconomic status group. These results were discussed with the five science teachers, the principal, and a university consultant in the setting, who were the informants of the qualitative elaboration phase of the study. Ethnographic methods uncovered themes explaining differences and similarities within the two instructional strategies. Teachers' feelings and stages of concern were identified. The results are discussed in terms of effectively implementing changes in instructional strategies and assessing science achievement of early adolescents.  相似文献   

10.
Plants are integral parts of ecosystems which determine life on Earth. People’s attitudes toward them are however, largely overlooked. Here we present initial psychometric assessment of self-constructed Plant Attitude Scale (PAS) that was administered to a sample of 310 Slovakian students living in rural areas aged 10–15 years. The final version of PAS consists from 29 Likert-scale items that were loaded to four distinct dimensions (Interest, Importance, Urban trees and Utilization). Mean scores revealed that Slovakian students lack positive attitudes toward plants and that gender had no effect on their mean attitude scores. Living in a family with a garden was associated with a more positive attitude toward plants. Further correlative research on diverse samples containing urban children and experimental research examining the impact of gardening in schools on student attitudes toward plants is required.  相似文献   

11.
The objective of this study was to develop an instrument to measure school students’ competence in learning science as part of a large research project in Taiwan. The instrument consisted of 29 self-report, Likert-type items divided into 2 scales: Competence in Scientific Inquiry and Competence in Communication. The Competence in Scientific Inquiry scale contained 4 subscales: presenting questions and hypothesis, planning, experimenting and data gathering, and data analyzing, interpreting, and concluding. The Competence in Communication scale contained 4 subscales: expressing, evaluating, responding, and negotiating. Students were recruited randomly from primary, junior, and senior high schools in different regions of Taiwan to validate the instrument and establish its reliability and validity. The results of the analyses indicate that the instrument, scales, and subscales have reasonable internal consistency; that the theoretical structure was supported by empirical data; and that the subscales are homogeneous. These results indicate that it is an appropriate tool for measuring students’ competence in learning science. Implications and suggestions for further studies are included.  相似文献   

12.
The purpose of this study was to examine associations between Turkish high school students’ perceptions of their science teachers’ interpersonal behaviour and their attitudes towards science. Students’ perceptions of the teacher–student interpersonal relationship were mapped with the Questionnaire on Teacher Interaction (QTI), which uses two relational dimensions: influence and proximity. Data on Students’ subject‐related attitudes were collected with the Test of Science Related Attitudes (TOSRA). A total of 7484 students (Grades 9 to 11) from 278 science classes (55 public schools) in 13 major Turkish cities participated in the study. Multilevel analyses of variance indicated that influence was related with student enjoyment, while proximity was associated with attitudes towards inquiry and with enjoyment.  相似文献   

13.
The purpose of this study is to investigate the effectiveness of guided-inquiry approach in science classes over existing science and technology curriculum in developing content-based science achievement, science process skills, and attitude toward science of grade level 6 students in Turkey. Non-equivalent control group quasi-experimental design was used to investigate the treatment effect. There were 162 students in the experimental group and 142 students in the control group. Both the experimental and control group students took the Achievement Test in Reproduction, Development, and Growth in Living Things (RDGLT), Science Process Skills Test, and Attitudes Toward Science Questionnaire, as pre-test and post-test. Repeated analysis of variance design was used in analyzing the data. Both the experimental and control group students were taught in RDGLT units for 22 class hours. The results indicated the positive effect of guided-inquiry approach on the Turkish students' cognitive as well as affective characteristics. The guided inquiry enhanced the experimental group students' understandings of the science concepts as well as the inquiry skills more than the control group students. Similarly, the experimental group students improved their attitudes toward science more than the control group students as a result of treatment. The guided inquiry seems a transition between traditional teaching method and student-centred activities in the Turkish schools.  相似文献   

14.
A multiple regression analysis of the relationship between prospective teachers' scientific understanding and Gender, Education Level (High School, College), Courses in Science (Biology, Chemistry, Physics, Earth Science, Astronomy, and Agriculture), Attitude Towards Science, and Attitude Towards Mathematics is reported. Undergraduate elementary science students (N = 176) in an urban doctoral-level university in the United States participated in this study. The results of this study showed Gender, completion of courses in High School Chemistry and Physics, College Chemistry and Physics, and Attitudes Toward Mathematics and Science significantly correlated with scientific understanding. Based on a regression model, Gender, and College Chemistry and Physics experiences added significant predictive accuracy to scientific understanding among prospective elementary teachers compared to the other variables.  相似文献   

15.
This replication studied the effect of two specific classroom climates on learning of science process skills and content achievement in college science classes. Two classroom climates were established and designated as discovery classroom climate (DCC) and nondiscovery classroom climate (NDCC). The term discovery denotes the degree of freedom the teacher established in classroom interactions, both verbal and nonverbal. Verbal interactions were monitored with the Science Laboratory Interaction Categories. These data indicate that students in the two classroom climates achieved equally as well on learning of biological content of the course and on scores in science process skills as measured by the Welch Science Process Inventory. This study indicates students in the less directive discovery climate learned as much content as a more directive comparison class—they lost nothing of what is traditionally sought in a college science class. Differences between the original and the replication study on the Science Process Inventory were noted.  相似文献   

16.
Leblebicioglu  G.  Abik  N. M.  Capkinoglu  E.  Metin  D.  Dogan  E. Eroglu  Cetin  P. S.  Schwartz  R. 《Research in Science Education》2019,49(5):1231-1255
Research in Science Education - Scientific inquiry is widely accepted as a method of science teaching. Understanding its characteristics, called Nature of Scientific Inquiry (NOSI), is also...  相似文献   

17.
The purpose of this study was to assess preservice teachers’ views of Nature of Science (NOS), identify aspects that were challenging for conceptual change, and explore reasons why. This study particularly focused on why and how some concepts of NOS may be more easily altered than others. Fourteen preservice science teachers enrolled in a NOS and Science Inquiry course participated in this study. Data were collected by using a pre/post format with the Views of Nature of Science questionnaire (VNOS-270), the Views of Scientific Inquiry questionnaire (VOSI-270), follow-up interviews, and classroom artifacts. The results indicated that most students initially held naïve views about certain aspects of NOS like tentativeness and subjectivity. By the end of the semester, almost all students dramatically improved their understanding about almost all aspects of NOS. However, several students still struggled with certain aspects like the differences between scientific theory and law, tentativeness, and socio-cultural embeddedness. Results suggested that instructional, motivational, and socio-cultural factors may influence if and how students changed their views about targeted NOS aspects. Students thought that classroom activities, discussions, and readings were most helpful to improve their views about NOS. The findings from the research have the potential to translate as practical advice for teachers, science educators, and future researchers.  相似文献   

18.
As part of a larger study, the How My Library Supports Inquiry and the How My Science Class Supports Inquiry questionnaires were developed for evaluating the extent of inquiry-based teaching in classrooms and school libraries and the effect of this instruction on student literacy and, by extension, the social good. Each has 28 items in seven scales measuring students’ perceptions of the degree to which certain psychosocial factors are prevalent in the science class and the school library. Using data from 872 elementary students and 639 secondary students, principal components factor analysis with varimax rotation and Kaiser normalization confirmed the a priori structure of the questionnaires. The factor structure, internal consistency reliability, discriminant validity, and the ability to distinguish between different classes and groups were supported for both instruments. Validation of these instruments enables consideration of a new approach for assessing the contribution of school libraries to the field of education, with specific emphasis on science education through the study. In addition, this study makes a unique contribution to the field of learning environments by evaluating the relationship between school library programs and classroom environments.  相似文献   

19.
The effect of two specific classroom climates on learning of science process skills and content achievement in college level science classes was studied. Two classroom climates were established and designated as discovery classroom climate (DCC) and nondiscovery classroom climate (NDCC). The term discovery denotes the degree of freedom the teacher established in classroom interactions, both verbal and nonverbal. Verbal interactions were monitored with the Science Laboratory Interaction Categories. These data indicate that students in the two classroom climates achieved equally as well on learning of biological content of the course, but students in the discovery classroom climate achieved significantly higher scores in science process skills as measured by the Welch Science Process Inventory. This study, conducted in a large, suburban community college, offers some useful information to the person who has educational goals beyond, but including, the learning of science information and concepts, and possibly science process. Students in the less directive discovery climate learned as much content as those in a more directive comparison class-they lost nothing of what is traditionally sought in a college science class. In addition, the discovery climate facilitated the development of science process skills which were significantly better than the comparison class. A five-week intensive class using the discovery climate was found to provide as much content acquisition as the ten-week nondiscovery climate.  相似文献   

20.
在农村英语教学中,口语教学始终都是教学的重点和难点。口语的学习,不仅能够培养初中生的语言表达能力和交际能力,还直接影响到初中生的英语综合素养。随着新课程改革的深入,初中英语教师越来越关注英语口语教学,采取了一系列创新的教学措施,并且取得了一定成效。但是,农村的初中英语口语教学水平仍不高,很多农村的初中生只会做题,不敢开口说英语,限制了学生的长远发展。  相似文献   

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