The classroom learning environment as perceived by students in Arab elementary schools

In this study, students’ perceptions of the classroom learning environment in Arab elementary schools were investigated. The sample included 261 students from Grades 5 and 6. The questionnaire was developed at an Arab college of teacher education by 16 fourth-year student teachers who were completing their studies toward a BEd degree. Articles on classroom learning environment were distributed to the students, who then wrote items to assess learning environment. The items were evaluated for content validity in relation to the Arab school culture, language, teachers’ teaching, students’ learning styles, teacher–student relations, order and organisation, discipline and behaviours. The Classroom Learning Environment of Elementary Students (CLEES) questionnaire consists of 32 items in four scales: Teacher’s Image, Group Work, Students’ Participation, and Order and Organisation. The CLEES was used in a pilot study in two Grade 5 and 6 classes in order to validate it. The student teachers administered the questionnaire to students in elementary schools. Data were analysed using SPSS (e.g. factor analysis and one-way ANOVA) to validate the CLEES. No significant differences were found between boys and girls in classroom learning environment. However, significant differences in CLEES perceptions were found between students from different grades (Grade 5 vs. Grade 6), age groups and schools. The results are explained in the discussion section in relation to the characteristics of their schools.     

How teaching science using project-based learning strategies affects the classroom learning environment

This study involved 458 ninth-grade students from two different Arab middle schools in Israel. Half of the students learned science using project-based learning strategies and the other half learned using traditional methods (non-project-based). The classes were heterogeneous regarding their achievements in the sciences. The adapted questionnaire contained 38 statements concerning students’ perceptions of the science classroom climate. The results of the study revealed that students who learned sciences by project-based teaching strategies perceived their classroom learning climate as significantly more Satisfying and Enjoyable, with greater Teacher Supportiveness, and the Teacher–Student Relationships as significantly more positive. The differences between the experimental (project-based learning strategies) and control (non-project) groups regarding their perceptions of the science classroom learning climate could be explained by differences between the two science teaching and learning strategies.     

Gender Differences in the Use and Effectiveness of Personal Response Devices

The use of personal response devices (or “clickers”) in the classroom has increased in recent years. While few quantitative studies on the effectiveness of clickers have been published, it is generally reported that clickers have been well-received by the students who use them. Two separate populations (Winter 2006 and Spring 2006) of engineering students were given clickers to use during a general chemistry class. Clicker use was compared to student grades for each course. During both terms, a higher percentage of female students than male students “actively participated” in the lectures, where active participation was defined as answering more than 75% of the clicker questions over the course of the term. Active male students earned final grades about 10 points higher than non-active male students. Active female students, however, scored only about 5 points higher than non-active female students. Student learning was assessed by comparing performance on exam questions and clicker questions with similar content. Students who answered clicker questions correctly were 11–13% more likely to answer the corresponding exam questions correctly than were students who did not answer the clicker question. In this paper, we demonstrate the effectiveness of clicker use in the classroom and examine gender differences associated with this use.     

An Investigation of the Contingent Relationships Between Learning Community Participation and Student Engagement

This study examined the contingent relationships between learning community participation and student engagement in educational activities inside and outside the classroom using data from the 2004 administration of the National Survey of Student Engagement (NSSE). Results indicated that learning community participation was positively and significantly related to student engagement, both for first-year students and seniors. For some types of engagement, relationships were significantly stronger for seniors than for first-year students. Analyses also revealed there was substantial variability across institutions in the magnitude of the relationships between learning community participation and first-year students’ levels of engagement. Although institutional characteristics accounted for some of the variability across institutions, a substantial amount of the variability in engagement–learning community relationships remained unexplained.     

Student Engagement in U.S. Urban High School Mathematics and Science Classrooms: Findings on Social Organization, Race, and Ethnicity

   This paper reports results of intensive field work in urban high school mathematics and science classrooms based on research with students attending eight high schools located in large, disparate urban sites across the U.S. During the course of our observations and interviews we recorded students’ activities as well as their impressions of classroom processes over the course of a week in each classroom using the Experience Sampling Method (ESM). ESM allows students to record information about their classroom experiences at intervals during daily mathematics and science classroom lessons. We measured levels of student engagement and examined relationships between student engagement and an array of predictors. We take a social organizational approach to interpreting classroom processes, examining the extent to which classroom activities influence student perception of class and communication among students and how these intervening factors affect student engagement during on-going classroom activities. Results suggest that there is variation between group members’ reactions to classroom activities. Specifically, as an example, Latino Students in Chicago, Miami and El Paso were far more engaged and responsive to classroom lessons during the time they spent in small problem-solving groups during class. Student Engagement in High School Mathematics and Science. Kazuaki Uekawa is affiliated with the American Institutes for Research, Washinton DC, USA. Kathryn Borman and Reginald Lee are affilated with the The University of South Florida, Tampa, FL, USA. Address correspondence to Kazuaki Uekawa, American Institutes for Research, Washinton DC, USA; e-mail: kuekawa@air.org     

Relationships of attitude toward classroom environment with attitude toward and achievement in science among tenth grade biology students

The purpose of the study was to examine the relationship of classroom environment to attitudes toward science and achievement in science among tenth grade biology students. An attitude instrument was administered at three times during the school year to measure student attitudes toward science and the classroom environment. The classroom environment measures examined six areas: emotional climate of the science classroom, science curriculum, physical environment of the science classroom, science teacher, other students in the science classroom, and friends attitudes toward science. Student achievement in science was measured by teacher reported semester grades. The results of the study indicated: (1) student attitudes toward the classroom environment predicted between 56 to 61% of the variance in attitudes toward science, (2) student attitudes toward the classroom environment predicted between 5 to 14% of the variance in achievement in science, (3) student attitudes toward science and attitudes toward the classroom environment predicted between 8 and 18% of the variance in achievement in science.     

Classroom disciplinary climate of schools and gender – evidence from the Nordic countries

ABSTRACT

Classroom disciplinary climate has emerged as a crucial factor with regard to student achievement. However, most previous studies have not explored potential gender differences in both students’ perceptions of the classroom disciplinary climate and the association between classroom disciplinary climate and student learning. Using data from the Organisation for Economic Co-operation and Development (OECD) Programme for International Student Assessment (PISA) 2012 for the Nordic countries, we found a significant association between the perceived classroom disciplinary climate of schools and students’ mathematics performance across countries. On the basis of an analysis of a pooled sample consisting of all 5 Nordic countries, we found that the correlation between classroom disciplinary climate of schools and maths achievement is significantly stronger for boys than for girls. Further analyses showed that this finding may partly be attributable to gender differences in the perception of the disciplinary climate of schools, whereby boys seemed to perceive the classroom disciplinary climate of schools more positively than girls.     

Minute math: An action research study of student self-assessment

Forty-one students in two third grade classes, including special education students, participated in an action research project conducted jointly by two university supervisors, three teachers, and three student teachers. The “Minute Math” project involved students in predicting and graphing their test scores on a weekly conventional timed test of the 0–9 multiplication facts. Students also reflected each week on their progress and the success of their studying and problem-solving strategies. Student self-assessment was successful at turning the rote memorization task of learning the times tables into a deeper experience for students about monitoring their own mathematics learning. This revised version was published online in July 2006 with corrections to the Cover Date.     

Heterogeneity of student perceptions of the classroom climate: a latent profile approach

Student perceptions are a pivotal point of measurement for understanding why classroom learning environments are effective. Yet there is some evidence that student perceptions cannot be reliably aggregated at the classroom level and, instead, could represent idiosyncratic experiences of students. The present study examines whether heterogeneity in student perceptions of the classroom climate has implications for student achievement. We use data from 1428 seventh grade students in 75 mathematics classrooms from the Michigan Study of Adolescent and Life Transitions. Three dimensions of student perceptions of the classroom were measured: emotional support, autonomy support and performance focus. To obtain a measure of heterogeneity, we first reduced the data using latent profile analysis to describe profiles of students’ perceptions of the classroom. Next, we quantified the heterogeneity of student perceptions within classrooms using Simpson’s D. Classroom-level heterogeneity (Simpson’s D) of students’ perceptions was negatively associated with students’ mathematics achievement, even after controlling for individual- and classroom-level previous achievement, student’s prior perceptions and other variables. Findings suggest that measures of heterogeneity in student perceptions might be important for understanding classroom- and teacher-level effects on student outcomes.     

School-Level Environment and Student Outcomes in Mathematics

The purpose of this study was to investigate whether a relationship exists between school-level environment and student outcomes. The study involved 620 teachers and 4645 students from 57 Australian secondary schools. Student outcome measures included mathematics achievement, career aspirations and students' attitudes and beliefs about success in mathematics. Teachers' perceptions of their school environment were measured using the School-Level Environment Questionnaire (SLEQ). Because previous research has shown that factors at the school level, such as environment, influence education at the classroom level, data regarding the instructional practices of teachers were included in the analysis in order to investigate this further. The results of these analyses show that various factors of the school-level environment were linked to improved student outcomes. Relationships were also found between teaching practices and student outcomes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Student Perceptions of Chemistry Laboratory Learning Environments, Student–Teacher Interactions and Attitudes in Secondary School Gifted Education Classes in Singapore

This study investigated the chemistry laboratory classroom environment, teacher–student interactions and student attitudes towards chemistry among 497 gifted and non-gifted secondary-school students in Singapore. The data were collected using the 35-item Chemistry Laboratory Environment Inventory (CLEI), the 48-item Questionnaire on Teacher Interaction (QTI) and the 30-item Questionnaire on Chemistry-Related Attitudes (QOCRA). Results supported the validity and reliability of the CLEI and QTI for this sample. Stream (gifted versus non-gifted) and gender differences were found in actual and preferred chemistry laboratory classroom environments and teacher–student interactions. Some statistically significant associations of modest magnitude were found between students' attitudes towards chemistry and both the laboratory classroom environment and the interpersonal behaviour of chemistry teachers. Suggestions for improving chemistry laboratory classroom environments and the teacher–student interactions for gifted students are provided.     

Examining Educational Climate Change Technology: How Group Inquiry Work with Realistic Scientific Technology Alters Classroom Learning

This study with 79 students in Montreal, Quebec, compared the educational use of a National Aeronautics and Space Administration (NASA) global climate model (GCM) to climate education technologies developed for classroom use that included simpler interfaces and processes. The goal was to show how differing climate education technologies succeed and fail at getting students to evolve in their understanding of anthropogenic global climate change (AGCC). Many available climate education technologies aim to convey key AGCC concepts or Earth systems processes; the educational GCM used here aims to teach students the methods and processes of global climate modeling. We hypothesized that challenges to learning about AGCC make authentic technology-enabled inquiry important in developing accurate understandings of not just the issue but how scientists research it. The goal was to determine if student learning trajectories differed between the comparison and treatment groups based on whether each climate education technology allowed authentic scientific research. We trace learning trajectories using pre/post exams, practice quizzes, and written student reflections. To examine the reasons for differing learning trajectories, we discuss student pre/post questionnaires, student exit interviews, and 535 min of recorded classroom video. Students who worked with a GCM demonstrated learning trajectories with larger gains, higher levels of engagement, and a better idea of how climate scientists conduct research. Students who worked with simpler climate education technologies scored lower in the course because of lower levels of engagement with inquiry processes that were perceived to not actually resemble the work of climate scientists.     

Development of a student perception inventory

Students learn new or difficult information most effectively when the classroom environment is compatible with their learning style preferences. Determining learning style preferences can be accomplished by administering the Learning Style Inventory (LSI). However, to understand compatibility with the classroom, an instrument that quantifies student perceptions of elements within the environment is essential. This paper describes development and field‐testing of such an instrument‐the Student Perception Inventory (SPI). The SPI was administered to 80 gifted middle school students and was found to provide useful student perception data. Information needed to improve learning environments for gifted learners, especially underachieving gifted students, was found when using the LSI in conjunction with the SPI.     

Structural relationships between learning environments and students’ non-cognitive outcomes: secondary analysis of PISA data

Relationships between students’ perceptions and their non-cognitive outcomes (epistemological beliefs, self-efficacy and attitudes to science) were investigated through secondary analysis of data from 14,167 United Arab Emirates students who participated in the Programme for International Student Assessment (PISA). Structural equation modeling (SEM) suggested that students’ perceptions of the learning environment were related to the non-cognitive outcomes of epistemological beliefs, self-efficacy and attitudes. Also, epistemological beliefs were found to have a statistically-significant and positive relationship with self-efficacy and attitudes, and self-efficacy was significantly related to attitudes.

     

Exploring student hand-raising across two school subjects using mixed methods: An investigation of an everyday classroom behavior from a motivational perspective

Student hand-raising is an everyday behavior in classroom interactions with teachers. This research presents two studies that examine the variance in hand-raising and its relation to student motivation in two school subjects, Mathematics and Language Arts. Student hand-raising is introduced as an indicator of behavioral engagement. Study 1 investigated N = 397 high school students in 20 classrooms during a videotaped lesson in each subject. Multilevel regression analysis suggests that student motivation accounts for significant variance in hand-raising. The results show subject-specific differences: Student self-concept predicts hand-raising in Mathematics, while students' situational interest predicts their hand-raising in Language Arts. Students’ externally regulated motivation is predictive across both subjects. In Study 2, N = 14 high school students were interviewed about their hand-raising behavior. The results validate and extend the findings from Study 1. Finally, this research emphasizes the importance of fostering student hand-raising and discusses the implications for future research.     

The Influence of the Teaching and Learning Environment on the Development of Generic Capabilities Needed for a Knowledge-Based Society

The effect of the teaching and learning environment on the development of generic capabilities was examined through a survey of 1756 undergraduate students at a university in Hong Kong. The survey assessed students' perceptions of the development of the six capabilities of critical thinking, self-managed learning, adaptability, problem solving, communication skills, and interpersonal skills and groupwork. Students were also asked to rate the quality of nine facets of the teaching and learning environment. Structural equation modelling was used to test a model of the influence of teaching on the nurturing of the six capabilities. The model grouped the nine facets of teaching and learning under the three higher-order latent variables of teaching, teacher–student relationship, and student–student relationship. The model showed a good fit to the data, indicating that the teaching and learning environment had a significant impact on the development of the generic capabilities while the students were taking their degree. The teaching latent variable had the strongest effect on the development of all six of the capabilities. A suitable teaching environment was characterised by a focus on understanding, the active participation of students in learning activities, a coherent curriculum, and assessment which focused on analytical skills and self-learning capability. Strong student–student relationships nurtured communication and interpersonal skills. There was a mutually reinforcing effect between the type of teaching, teacher–student relationships and student–student relationships.     

The role of hidden curricula on the resistance behavior of undergraduate students in psychological counseling and guidance at a Turkish University

Student resistance can be a very important problem for the instructors in universities. Student resistance includes the conscious and preplanned behaviors towards the information presented to them in the classroom and the institutional practices. Typically, student resistance takes the form of passive or active non-compliance with roles and outputs expected of them as students. The purpose of this paper is to investigate the effects of hidden curricula on student resistance. The research was conducted on senior undergraduate students in a Turkish University, in the Department of Psychological Counseling and Guidance. Given the exploratory nature of this investigation, a case study methodology was employed. Data was collected from official documents, class observations, and interviews. The results of this research indicated that the students demonstrated resistance to some dimensions of the hidden and delivered curricula. Specifically, while the students showed resistance towards the delivered curriculum and ‘banking education’, they did not show similar resistance to symbolic violence and the ‘warming-up’ process.     

Classroom environments and student empowerment: An analysis of elementary and secondary teacher beliefs

This project explored a classroom model of motivation in which the source of student motivation is based on internal mechanisms or structures and classroom student/instructor interactions. It also extended earlier research in which beliefs of veteran, entry level, and preservice teachers have been explored. For this project, 117 elementary teachers (Grades K–5) with at least 3 years of experience and 126 secondary teachers (Grades 6–12) with similar teaching experiences completed a 40-item Likert-type questionnaire that focused on the four classroom dimensions of Affirmation, Rejection, Student Empowerment, and Teacher Control. The results suggested that elementary teachers and secondary teachers varied in their reported desire for teacher empowerment versus student empowerment in the classroom, and for providing a positive classroom environment as opposed to one that encourages a classroom atmosphere of rejection. Implications for future research and the need for creating affirming, empowering, motivational classroom environments are discussed.     

Classroom climate and science-related attitudes of junior high school students in Taiwan

Differences in classroom climate and science related attitudes were investigated among junior high school science classes and students in Taiwan. The sample consisted of 1,269 students enrolled in 40 science classes distributed equally among ten junior high schools, five metropolitan and five rural. Classes were further classified according to sex (21 boys and 19 girls classes) and ability (19 high and 21 low ability classes). Using the Learning Environment Inventory (Anderson, Walberg, & Fraser, 1982) to measure climate, science classes in metropolitan schools, more than rural, were found to be characterized by Speed, Friction, Favoritism, Difficulty, Cliqueness, and Competitiveness. No differences were found in the classroom climates of classes in which students were grouped according to sex or ability. Using the Test of Science-Related Attitudes (Fraser, 1981), students in science classes in metropolitan schools, in contrast to rural, expressed more positive attitudes toward the Social Implications of Science, Adoption of Scientific Attitudes, and Attitude to Scientific Inquiry. Boys more than girls recorded high scores on Leisure Interest in Science and Career Interest in Science. High ability students were found to have higher scores on Attitude to Scientific Inquiry than did low ability students. When examining the relationship between the 15 subscale scores of the LEI and the seven subscale scores of the TOSRA for the 40 classes, only 9 out of 105 correlations proved to be significant. Most differences in climate, attitude, and their interactions were attributed to school location rather than to student characteristics.