Classroom Learning Environments in Urban Elementary,Middle, and High Schools

The purpose of the present study was to investigate student gender, subject area, and grade level differences in students' perceptions of their classroom learning environment. Over 13,000 students from 96 urban elementary, middle, and high schools that served predominantly minority students completed a modified version of the Classroom Environment Scale (CES) and the Instructional Learning Environment Questionnaire (ILEQ). Female students generally reported higher scores for their perceptions of the learning environment than did male students. There were very few differences by subject area, but there were many statistically and educationally significant differences by grade level. In general, middle school classes had less favorable perceptions of their learning environment than did either elementary or high school classes.     

The CLEM model: Path analysis of the mediating effects of attitudes and motivational beliefs on the relationship between perceived learning environment and course performance in an undergraduate non-major biology course

In this study, the following questions were addressed in an undergraduate non-major biology course using a large lecture format: Is there a relationship between students?? perceptions of their learning environment and course performance, and what roles do motivation and attitudes play in mediating that relationship? The purpose of this study was to test a path model describing the mediating effects of motivation and attitudes on learning environments and course performance. The study considered contemporary understanding of teaching and learning, as well as motivation and attitudes, in suggesting a direction for future reform efforts and to guide post-secondary science education instructors and leaders in the design of learning environments for undergraduate non-major biology courses. Among the classroom learning environment variables assessed in this study, personal relevance was the major contributor to predicting attitudes, motivation and course performance. Although the classroom learning environment had a very weak direct effect on course performance, there was a moderate total effect on self-efficacy and intrinsic goal orientation. The classroom learning environment also had a moderate total effect on attitudes toward biology. Attitudes toward biology had a moderate direct effect on self-efficacy. While attitudes toward biology was significantly correlated with course performance, the direct effect was extremely weak and was dropped from the model. However, attitudes toward biology had a moderate indirect effect on course performance due to the mediating effects of self-efficacy. Self-efficacy had a strong direct effect on course performance and therefore seemed to be particularly important. The model tested in this study explained 33?% of the variance in course performance, 56?% of the variance in self-efficacy, 24?% of the variance in attitudes toward biology, and 18?% of the variance in intrinsic goal orientation. To improve course performance, instructors should focus on building self-efficacy among their students and ensure that students find the course personally relevant.     

Factors influencing student perceptions of high-school science laboratory environments

Science laboratory learning has been lauded for decades for its role in fostering positive student attitudes about science and developing students’ interest in science and ability to use equipment. An expanding body of research has demonstrated the significant influence of laboratory environment on student learning. Further research has demonstrated differences in student perceptions based on giftedness. To explore the relationship between giftedness and students’ perceptions of their learning environment, we examined students’ perceptions of their laboratory learning environment in biology courses, including courses designated for high-achieving versus regular-achieving students. In addition, to explore the relationship between students’ perceptions and the extent of their experience with laboratory learning in a particular discipline, we examined students’ perceptions of their laboratory learning environment in first-year biology courses versus elective biology courses that require first-year biology as a prerequisite. We found that students in high-achieving courses had a more favourable perception of all aspects of their learning environment when compared with students in regular courses. In addition, student perceptions of their laboratory appeared to be influenced by the extent of their experience in learning science. Perceptions were consistent amongst regular- and high-achieving students regardless of grade level. In addition, perceptions of students in first year and beyond were consistent regardless of grade level. These findings have critical applications in curriculum development as well as in the classroom. Teachers can use student perceptions of their learning environment to emphasize critical pedagogical approaches and modify other areas that enable enhancement of the science laboratory learning environment.     

Measuring Student Attitude and Knowledge in Technology-Rich Biology Classrooms

The use of technology in schools is now ubiquitous, but the effectiveness on the learning environment has mixed results. This paper describes the development and validation of an instrument to measure students’ attitudes toward and knowledge of technology with the aim of investigating any differences based on gender after a course where the science department made use of technology as an integral part of teaching biology. In this study, conducted in one school in the state of New York, in the United States of America, the Students’ Attitudes Toward and Knowledge of Technology Questionnaire was administered to nearly 700 high school science students. A principal component and principal factor analysis resulted in new scales from the validation of the instrument that demonstrated high reliabilities. There were statistically significant gender differences in all the scales of the questionnaire in favor of males.     

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.     

Motivational goal orientation, perceptions of biology and physics classroom learning environments, and gender

Researchers have reported persuasive evidence that students?? perceptions of their classroom learning environment account for significant variance in cognitive and affective outcomes (e.g. intrinsic motivation, self-concept, liking for particular subjects and students?? intention to drop out). The study reported in this paper investigated the relationship between students?? perceptions of classroom learning environment and motivational achievement goal orientations towards biology and physics, as well as the influence of gender. Participants (N?=?1538) were high school science students from the north-eastern region of Thailand. Our results suggest that motivational goals are linked to differences in students?? perceptions of learning environment and levels of biology and physics classroom anxiety. We found that females adopted significantly higher levels of mastery and performance approach goals towards biology, while males adopted significantly higher levels of mastery and performance approach goals towards physics. Males adopted significantly higher levels of performance avoidance goals towards both biology and physics. Positive associations emerged between gender and the adoption of specific performance goals, perceived degree of competition in biology and physics classrooms, and levels of biology and physics classroom anxiety. These results suggest that motivational goal orientations and perceptions of learning environment are gender-dependent and domain-specific for the two science content areas.     

高中英语课堂环境与学习成果的关系研究

课堂环境与学习成果的关系一直是西方课堂环境研究的热点。本研究运用《中学英语课堂环境量表》作为测量工具,测量了高中生对英语课堂环境的感知与其英语学习态度和学习成绩之间的关系。研究结果表明:课堂环境是影响二语学习成果的主要因素之一,积极的课堂环境可以改善和提高学生的二语学习成果。课堂环境通过直接效应和中介效应共同影响二语学习成果,其中任务取向对二语学习成果的预测力最大。     

An exploratory study on singaporean secondary school students’ perceptions of choral learning

This paper explores 122 secondary school students’ perceptions of the choral learning environment. A survey questionnaire was developed taking into consideration the responses of a pilot study in which students were requested to list what they liked and disliked about the choir. The participants rated their degree of agreement on a five-point scale on psychosocial and other perspectives of choral learning. Three research questions were posed: (1) What are Singaporean secondary school students’ perceptions of choral learning? (2) Are there any gender differences in their perceptions of choral learning? (3) Are there any across school differences in their perceptions of choral learning? The findings of the study were discussed from the perspective of Singapore’s education and learning environment research.     

Gender differences in attitudes towards learning oral skills using technology

This paper reports a quantitative study on gender differences in attitudes when learning oral skills via technology. The study was conducted at Tafila Technical University, Jordan, with 70 female and 30 male students, to find out if female students are better and faster in learning a language than male. Specifically, it seeks to investigate differences in attitudes between females and males in terms of practicality, confidence and anxiety. The results of the study show that there were no significant differences between female and male students when comparing the pre- and post-test mean scores. Both genders establish the same levels of attitudes before and after undergoing this course, which suggests that the exposure to language learning using technology did not contribute to any significant gender inequality. The paired sample t-test results showed improved attitudes toward learning oral skills in both females and males. The study also indicates female and male improvement in the anxiety dimension showing that their initial strong apprehension toward this course was greatly reduced at the end of the course. In terms of confidence, female showed better enhanced confidence level than male at the end of the course.     

Democratic environment in higher education: The case of a Turkish public university

This study describes the expectations of undergraduate students regarding the characteristics of a democratic university environment. It then goes on to explore whether there are any significant differences among the dimensions of democratic university environment, namely respect for ideas, participation in decision-making, and promotion of tolerance. Last, it examines the effects of certain variables (gender, student club attendance, newspaper reading, and home residence) on student perceptions of their university environment. The results showed that there was a significant difference among three dimensions of democratic university environment. In addition, gender, student club attendance, and home residence had significant effects on differing dependent variables.     

The Learning Environment of High School Students in Chemistry and Biology Laboratories

In this article a comparison of students’ perceptions of laboratory classes in chemistry and biology is presented. By using the Science Laboratory Environment Inventory (SLEI), pronounced and significant differences between chemistry and biology laboratory environments were found on two of the subscales: ‘Integration’ that describes the extent to which its laboratory activities are integrated with non‐laboratory and classroom learning and ‘Open‐endedness’, a subscale that measures the extent to which the laboratory emphasises an open‐ended, divergent, and an individualised approach to experimentation. It is suggested that the SLEI can be considered as a sensitive tool to measure students’ perceptions of their learning environment in different subject matters during the laboratory work. In this study the SLEI was also used to compare students’ actual and preferred learning environments and to explore gender differences regarding this issue.     

Gender,ethnicity, science achievement,and attitudes

Science achievement and attitudes were assessed for a series of students in Grades 3–12 representing the four major ethnic groups in Hawai'i (USA). It was found that more differences were accounted for by ethnicity and even grade than by gender; in addition, there was little interaction between ethnicity and gender. With respect to ethnicity, Caucasian and Japanese-American students outscored Hawaiians and Filipino Americans at all grade levels. Caucasians also expressed the most positive attitudes toward science and Japanese expressed the most positive perceptions of scientists; Hawaiians generally expressed the least positive perceptions. Younger students generally expressed more positive attitudes toward science but less positive perceptions of scientists compared to older students. Caucasians expressed the most positive perceptions of their own science ability and achievement. With respect to gender, there were no consistent differences in science achievement and very few in science attitudes and perceptions. The major differences were that males reported more experiences with physical science activities and also expressed a more male-stereotyped view of science than females, with some variation by ethnicity and grade. There were differences in enrollment in advanced science and mathematics classes in that females were more likely than males to enroll in many, but for both genders the major reason was college admission: Japanese students were most likely and Hawaiians least likely to indicate science interest as a reason. Findings are discussed within the context of cultural ecology and feminist social theory. © 1996 John Wiley & Sons, Inc.     

Students' science perceptions and enrollment decisions in differing learning cycle classrooms

This investigation examined 10th‐grade biology students' decisions to enroll in elective science courses, and explored certain attitudinal perceptions of students that may be related to such decisions. The student science perceptions were focused on student and classroom attitudes in the context of differing learning cycle classrooms (high paradigmatic/high inquiry, and low paradigmatic/low inquiry). The study also examined possible differences in enrollment decisions/intentions and attitudinal perceptions among males and females in these course contexts. The specific purposes were to: (a) explore possible differences in students' decisions, and in male and female students' decisions to enroll in elective science courses in high versus low paradigmatic learning cycle classrooms; (b) describe patterns and examine possible differences in male and female students' attitudinal perceptions of science in the two course contexts; (c) investigate possible differences in students' science perceptions according to their decisions to enroll in elective science courses, participation in high versus low paradigmatic learning cycle classrooms, and the interaction between these two variables; and (d) examine students' explanations of their decisions to enroll or not enroll in elective science courses. Questionnaire and observation data were collected from 119 students in the classrooms of six learning cycle biology teachers. Results indicated that in classrooms where teachers most closely adhered to the ideal learning cycle, students had more positive attitudes than those in classrooms where teachers deviated from the ideal model. Significantly more females in high paradigmatic learning cycle classrooms planned to continue taking science course work compared with females in low paradigmatic learning cycle classrooms. Male students in low paradigmatic learning cycle classrooms had more negative perceptions of science compared with males in high paradigmatic classrooms, and in some cases, with all female students. It appears that using the model as it was originally designed may lead to more positive attitudes and persistence in science among students. Implications include the need for science educators to help teachers gain more thorough understanding of the learning cycle and its theoretical underpinnings so they may better implement this procedure in classroom teaching. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 1029–1062, 2001     

THE IMPACT OF A DIFFERENTIAL SOCIAL POWER SYSTEM ON LATINOS' ATTITUDES TOWARD THE HIGH SCHOOL AND THE COMMUNITY COLLEGE EXPERIENCE

The perceptions of Mexican American students’ school attitudes toward the community college and high school experiences were examined in relation to a high‐USPI (unequal social power influence) environment (higher percentage of Anglos than Mexican Americans) and a low‐USPI environment (lower percentage of Anglos than Mexican Americans). A three‐factor analysis of variance indicated significant differences in attitudes and school experiences.     

University Students’ Perceptions of and Attitudes Toward (Online) Peer Assessment

The use of peer assessment (PA) as an alternative form of evaluation method is reported to be helpful in learning and is increasingly being adopted in higher education settings. Through collecting data from 280 university students in Taiwan, a 20-item instrument was developed to investigate university students’ attitudes toward and perceptions of PA and online PA. Four subscales, Positive Attitudes, Online Attitudes, Understanding-and-Action, and Negative Attitudes, were extracted and reliabilities were calculated. Results revealed that participating students held positive attitudes toward the use of PA activities, but they viewed online PA as a technical tool to facilitate assessment processes, rather than as a learning aid. Male students had more positive attitudes toward PA than females did, and students with previous PA experiences had less negative attitudes toward PA. A majority of these students suggested that the PA score should be counted as a small part of the total course grade, and there was an effect of the perceived importance of PA score on students’ attitudes toward these four subscales.     

Students’ perceptions of the academic environment and approaches to studying in British postgraduate business education

Recent research on student learning in higher education has identified clear associations between variations in students’ perceptions of the academic environment and variations in their study behaviour. This study investigated a general theoretical model linking students’ demographic characteristics, perceptions and study behaviour with measures of outcome, and in particular, compared three accounts of the causal relationship between perceptions and study behaviour. Data were obtained from 469 postgraduate students at six British business schools. Path analysis was used to assess the causal relationships among the students’ age and gender, their scores on the Course Experience Questionnaire, their scores on the Revised Approaches to Studying Inventory and their ratings of general satisfaction with their programmes. This yielded evidence for the causal efficacy of most of the paths identified in the general theoretical model. In particular, as in the case of students taking more traditional academic subjects, there exists a bidirectional causal relationship between variations in students’ perceptions of the academic environment and variations in their study behaviour.     

GENDER DIFFERENCES IN THE RELATIONSHIP BETWEEN TAIWANESE ADOLESCENTS' MATHEMATICS ATTITUDES AND THEIR PERCEPTIONS TOWARD VIRTUAL MANIPULATIVES

This study explored gender differences in the relationship between young people's mathematics attitudes and their perceptions toward virtual manipulatives. Seven hundred eighty junior high school adolescents who participated in the problem-solving activity using virtual manipulatives were selected for examination. The study found the male adolescents' views on motivation and enjoyment of mathematics could explain many aspects of their perceptions toward virtual manipulatives. The female adolescents' views on the importance of mathematics and freedom from fear of mathematics could explain many aspects of their perceptions toward virtual manipulatives. However, motivation, enjoyment, and importance of mathematics were more prominent than freedom from fear of mathematics in predicting male adolescents' perceptions toward virtual manipulatives, and freedom from fear and importance of mathematics were more prominent than enjoyment and motivation of mathematics in predicting female adolescents' perceptions toward virtual manipulatives. Two implications can be drawn from this study. First, teachers could provide males with appealing problem contexts not only to be used to remove the fear of mathematics, but also to be used for enjoyment and as motivation to see the importance of mathematics. Then male students could be encouraged to have more confirmed positive perceptions toward virtual manipulatives when engaging in the activities of computer-based mathematics. Second, teachers could provide females with interesting teaching activities, not only to be used for motivation and the enjoyment of mathematics, but also to be used to remove the fear of mathematics and for experiencing the importance of mathematics. Then female students could have positive perceptions toward virtual manipulatives when technology was integrated into the classroom to enhance learning and to support effective mathematics teaching.     

BOOK REVIEW

This paper describes an investigation in Korea of the extent to which a new general science curriculum, reflecting a constructivist view, has influenced the classroom learning environment in grade 10 science. The Constructivist Learning Environment Survey (CLES) was selected for the investigation and translated into Korean. Other objectives of this study were to determine whether the Korean version of the CLES is valid and reliable, differences between students’ perceptions of their actual and preferred learning environment and associations between students’ perceptions of the constructivist learning environment and their attitude to science. The Korean‐language version of the CLES was found to be valid and reliable and grade 10 students did perceive a more constructivist learning environment than grade 11 students who had not been exposed to the new curriculum. This suggested that efforts of curriculum reform had produced some positive effects. Students tended to prefer a more positive environment than what was perceived to be present and statistically significant relationships were found between classroom environment and student attitudes. These relationships suggest that favourable student attitudes could be promoted in classes where students perceive more personal relevance, share control with their teachers and negotiate their learning.     

Investigating Engagement and Flow with a Placed-Based Immersive Virtual Reality Game

An immersive virtual reality (iVR) game for high school students to learn about locations in their watershed with a primary focus on their city was designed and developed, employing a design model that focuses on flow. An exploratory study with the iVR game was conducted in an urban school in the eastern USA with 57 adolescents ages 16–18 from a population that is economically disadvantaged and includes students who are typically unengaged in traditional school-based learning environments. After game completion, the participants completed a 10-item survey measuring elements of flow and a 12-item survey designed to measure perceptions toward learning with VR games, immersion and presence. Participant focus groups were conducted with an emphasis on features that promoted engagement, learning, immersion, and presence. The findings revealed that all students experienced a flow state when they played the iVR learning game. Almost all users (98.1%) had positive attitudes towards using the iVR game. Students experienced high immersion and presence. In addition, students had favorable attitudes towards learning with iVR games in school environments.