Understanding science teaching effectiveness: examining how science-specific and generic instructional practices relate to student achievement in secondary science classrooms

ABSTRACT

In order to create conditions for students’ meaningful and rigorous intellectual engagement in science classrooms, it is critically important to help science teachers learn which strategies and approaches can be used best to develop students’ scientific literacy. Better understanding how science teachers’ instructional practices relate to student achievement can provide teachers with beneficial information about how to best engage their students in meaningful science learning. To address this need, this study examined the instructional practices that 99 secondary biology teachers used in their classrooms and employed regression to determine which instructional practices are predictive of students’ science achievement. Results revealed that the secondary science teachers who had well-managed classroom environments and who provided opportunities for their students to engage in student-directed investigation-related experiences were more likely to have increased student outcomes, as determined by teachers’ value-added measures. These findings suggest that attending to both generic and subject-specific aspects of science teachers’ instructional practice is important for understanding the underlying mechanisms that result in more effective science instruction in secondary classrooms. Implications about the use of these observational measures within teacher evaluation systems are discussed.     

The Effect of Clickers in University Science Courses

In four studies on the use of student response systems, clickers, we sought to understand whether the use of clickers would impact students’ attitudes toward the use of technology for instruction and achievement on examinations. While the results varied some by study, overall, the results revealed no significant changes in the already positive student attitude toward the use of instructional technology. In all four studies, the majority of the students reported that they learned more when clickers were used in class. The use of clickers did not serve as useful predictor of student achievement in science classes. The findings of this study are similar to others which suggest that some classroom technologies (like clickers) may not necessarily have a direct connection with student achievement, despite positive student feedback regarding their experience using these technologies. Further studies are needed to better understand the true nature of the relationship between these technologies and classroom outcomes.     

Using Technology to Facilitate Differentiated High School Science Instruction

This qualitative investigation explored the beliefs and practices of one secondary science teacher, Diane, who differentiated instruction and studied how technology facilitated her differentiation. Diane was selected based on the results of a previous study, in which data indicated that Diane understood how to design and implement proactively planned, flexible, engaging instructional activities in response to students’ learning needs better than the other study participants. Data for the present study included 3 h of semi-structured interview responses, 37.5 h of observations of science instruction, and other artifacts such as instructional materials. This variety of data allowed for triangulation of the evidence. Data were analyzed using a constant comparative approach. Results indicated that technology played an integral role in Diane’s planning and implementation of differentiated science lessons. The technology-enhanced differentiated lessons employed by Diane typically attended to students’ different learning profiles or interest through modification of process or product. This study provides practical strategies for science teachers beginning to differentiate instruction, and recommendations for science teacher educators and school and district administrators. Future research should explore student outcomes, supports for effective formative assessment, and technology-enhanced readiness differentiation among secondary science teachers.     

Capacity building to bridge data use and instructional improvement through evidence on student thinking

While schools and systems across the globe promote data-driven decision making, teachers often struggle to use data, especially from external assessments, to inform daily instruction. In this paper, we examine teacher capacity building for a less typical form of data use - evidence on student thinking. We draw on data from a longitudinal, in-depth qualitative study involving middle school math teachers who were engaged in an instructional improvement project. Findings show that data use occurred when evidence from student thinking was introduced as part of the instructional planning process. This shift was facilitated by an instructional coach whose capacity building efforts with teachers focused on coherence, specifically planning high quality instruction and using data effectively, while also meeting district pacing and unit planning goals. When teachers put new strategies into practice, feedback from formative assessment data allowed teachers to identify and address misconceptions in student thinking. Learning how to use data as part of instruction helped teachers build capacity to reflect on their own practice. Implications for theory, practice, and research are discussed.     

Chickering's Seven Principles of Good Practice: Student Attrition in Community College Online Courses

As online enrollments escalate, so does concern about student attrition rates. There is an abundance of literature addressing student success in online courses, particularly using constructivist learning theories to create engaging learning experiences. Also emerging from the literature is the Seven principles of good instructional practice by Checkering and Gamson as an accepted rubric for evaluating effective online instruction. This study focused on whether the use of instructional strategies as measured by the seven principles had an effect on student attrition rates in online courses. Full and part-time faculty at three community colleges in Virginia who taught online course(s) in the last three semesters completed an online survey to determine the extent to which they used instructional strategies reflecting the constructivist-based seven principles in their online courses. Scores from the survey were then compared to the attrition rates in their courses. Results indicated both groups strongly used instructional strategies reflecting the seven principles of good practice in their online courses with full-time faculty scores ranging a bit higher. When the results for the principles were examined individually rather than as a set, both groups scored lower on principles reflecting innovative instructional strategies. No relation between the extent to which faculty reported using those instructional strategies and student success as measured by attrition rates were found. However, a moderate relation was found with the third principle, “encourage active learning.” This indicated that faculty who made strides toward actively engaging students found some success in reducing student attrition.     

From Public Education to Educational Publics

Students tend to comprehend little and lose focus of classroom instruction when their teachers fail to use instructional strategies that match students’ learning styles. Differentiated instruction can alleviate or eliminate this disengagement. This article describes a case involving a child having difficulty learning and shows how differentiated instruction was used to help this student learn. The author describes the theories on which differentiated instruction is based and provides practical strategies teachers can use to implement this method of teaching.     

Using internet assessment tools for health and physical education instruction

Conclusions Physical education should provide opportunities for students to participate in activities that promote fitness and well-being. Implementing best practices into the physical education curriculum can contribute to the understanding and application of a healthy lifestyle for students. Technology applied in the physical education curriculum can provide an opportunity for improved instruction and enhanced student learning in physical education. The current study showed that students not only enjoyed working with computer technology but also preferred this interactive instructional method to a lecture method of instruction. The use of technology within the physical education program seemed to motivate students to engage with the material presented. After completing the web-based activities, students also seemed to be aware of their eating and physical activity habits and the changes that they needed to make in their lifestyles. They also expressed positive attitudes toward the use of technology in their physical education class. This study supports Cradler’s (1992) observation that outcomes will be positive when the effective physical educator uses the appropriate technology with sound pedagogical strategies and applicable content in their curriculum.     

The effect of blended instruction on accelerated learning

While online instructional technologies are becoming more popular in higher education, educators’ opinions about online learning tend to be generally negative. Furthermore, many studies have failed to systematically examine the features that distinguish one instructional mode from another, which weakens possible explanations for why online instructional technology can be beneficial. The current study isolates three benefits of the authors’ particular online instructional technology: (1) providing flexibility in how students learn, (2) offering immediate and targeted feedback and (3) increasing student participation and engagement with instructional material. Maximum benefits were observed when students used the online instructional technology to prepare for their face-to-face class – that is, students with this blended instruction learned twice as much content in the same amount of time in comparison to students with face-to-face instruction alone, without creating an atypically high workload.     

Examining technology integration in middle school STEAM units

ABSTRACT

This research draws on a longitudinal study in which middle school math and science teachers enacted STEAM (science, technology, engineering, art and mathematics) teaching in their classroom after participating in intensive STEAM professional development aimed at increasing effective STEAM teaching. The authors address one important aspect in STEAM teaching, technology integration practices of teachers during instruction, and theorise their work using connected learning theory. Qualitative case study is used to identify and describe technology integration themes which emerged during STEAM instruction. Results suggest 17 of the 21 teachers participating in the study demonstrated technology integration involving one or more areas of instructional approaches, assessment and student use. The research expands what we know about how technology can be integrated in STEAM instruction and suggests ways to capitalise on technology to broaden access and appeal to all students during STEAM instruction.     

The device in the room: Technology’s role in third grade literacy instruction

Abstract

This yearlong study explores how digital technologies are used during literacy instruction in the critical year of third grade. We analyzed technology use in 16 classrooms across six geographically and socioeconomically diverse schools. We examined the multiple layers of technology’s influences on teachers’ instructional decision-making and on students’ engagement. Applying Bloom’s Revised Taxonomy alongside the SAMR model, expectations for student technology use varied across settings and resulted in mixed levels of student engagement. Although technology has the potential to transform teaching and learning, it is most often used as a substitution for traditional instructional tools and to support students’ remembering and understanding rather than more complex tasks. Analysis suggests technology tools are not being strategically employed to support the development of 21st century learning skills.     

Instructional improvement and student engagement in post-secondary engineering courses: the complexity underlying small effect sizes

The current study leveraged a professional development programme for engineering faculty at a large research university to examine the impact of instructional improvement on student engagement. Professors who participated in the professional development were observed three times and rated using an existing observation protocol. Students in courses with instructors who participated and did not participate in the professional development were surveyed about their classroom engagement. The responses were used to conduct quasi-experimental comparisons. Results indicated that students in courses with professors who participated in the professional development self-reported 3% more behavioural and 2% more cognitive engagement than students with professors who did not participate. Within professional development group, follow-up comparisons showed that students in courses with the highest rated instructors self-reported 7% more cognitive engagement than students with lower ranked professors. Thematic coding of the qualitative data suggests that the highest rated instructors may have achieved these gains through the use of three domain general instructional strategies: activating prior knowledge, facilitating classroom interaction and promoting reflection. Findings are contextualised within extant literature reporting similar effect sizes, and implications for future engagement research from a classroom systems perspective are discussed.     

Effect of cooperative learning strategies on student verbal interactions and achievement during conceptual change instruction in 10th grade general science

This study evaluated the effects of cooperative learning on students' verbal interaction patterns and achievement in a conceptual change instructional model in secondary science. Current conceptual change instructional models recognize the importance of student–student verbal interactions, but lack specific strategies to encourage these interactions. Cooperative learning may provide the necessary strategies. Two sections of low-ability 10th-grade students were designated the experimental and control groups. Students in both sections received identical content instruction on the particle model of matter using conceptual change teaching strategies. Students worked in teacher-assigned small groups on in-class assignments. The experimental section used cooperative learning strategies involving instruction in collaborative skills and group evaluation of assignments. The control section received no collaborative skills training and students were evaluated individually on group work. Gains on achievement were assessed using pre- and posttreatment administrations of an investigator-designed short-answer essay test. The assessment strategies used in this study represent an attempt to measure conceptual change. Achievement was related to students' ability to correctly use appropriate scientific explanations of events and phenomena and to discard use of naive conceptions. Verbal interaction patterns of students working in groups were recorded on videotape and analyzed using an investigator-designed verbal interaction scheme. The targeted verbalizations used in the interaction scheme were derived from the social learning theories of Piaget and Vygotsky. It was found that students using cooperative learning strategies showed greater achievement gains as defined above and made greater use of specific verbal patterns believed to be related to increased learning. The results of the study demonstrated that cooperative learning strategies enhance conceptual change instruction. More research is needed to identify the specific variables mediating the effects of cooperative learning strategies on conceptual change learning. The methods employed in this study may provide some of the tools for this research.     

Differential Use of Elementary Science Kits

The use of kits in elementary science classes is a growing trend in some countries. Kits provide materials and inquiry lessons in a ready-to-teach format for teachers to use in their science instruction. This study examined elementary teachers' instructional strategies, classroom practices, and assessment types in relation to the frequency of science kit use. A total of 503 elementary teachers from an urban school district received professional development, implemented kits in their classrooms for a year, and then completed a survey about science kit use and teaching practices. Despite similarities in demographic characteristics (gender, ethnicity, certification/educational level), there were significant differences in teachers' use of inquiry-based teaching and assessment practices by kit use. Teachers who reported using kits the most often were significantly more likely to report that their students designed and implemented laboratory investigations as well recorded, represented, and analyzed data. In addition, the high kit users indicated that they were more likely to use student groups, require students to use evidence to support claims, and use alternative assessments of student work including portfolios, notebooks, and long-term projects than those teachers who used kits less frequently. Those teachers who reported using kits the least often were significantly more likely to report having students practice for standardized tests. The role of kits in promoting reform-based teaching practices is discussed.     

The effectiveness of blended online learning courses at the community college level

Whether through the use of online-only or hybrid/blended formats, colleges and universities across the country are increasingly utilizing online platforms as a medium for the delivery of instruction. At the same time, we know little about how student learning outcomes are related to students’ engagement with online instructional formats. In particular, few studies have evaluated online learning in community colleges, and fewer yet have employed an experimental or quasi-experimental design to do so. In this research, we use propensity score matching to compare learning gains between community college students enrolled in blended courses, (courses that combine online instructional delivery with traditional classroom-based instruction) with gains experienced by students receiving only classroom-based instruction. Among students enrolled in blended courses, we also consider which aspects of student use of online instructional materials are most strongly associated with student learning. While some evidence has suggested significantly poorer outcomes for community college students enrolled in online-only courses, our results suggest that students enrolled in blended courses perform similarly, if not better, relative to students in a traditional instructional setting. Implications for practice and research are discussed.     

Design and Delivery of Training for International Trainees: A Case Study

One problem faced by instructional designers in multinational corporations is designing training for use with other cultures, while using resources effectively. A naturalistic case study approach was used to determine which conditions international students bring to technical training are the most critical and which aspects of the delivery of instruction are affected most critically by those traits. Respondents included students from several countries, as well as instructors. The most critical traits were value differences and language difficulty. These affected all aspects of training, but most critically the needs assessment and the instructional strategies. Critical instuctional strategies include reiterating concepts in several ways and using visuals, clear and active language, and relevant and specific examples. Effective strategies also include allowing more time for instruction, building in frequent breaks, and using media that use multiple senses and allow students to go at their own pace.     

A case study of how a sample of preservice teachers made sense of incorporating iPads into their instruction with children

The increased use of and demand for technology in early childhood education classrooms and programs creates new challenges for practicing and preservice early educators being asked to employ such technology within their teaching. Early childhood teacher education programs have struggled to meet these demands for teaching their students how to integrate such technology into their instruction with young children. Preservice teachers who do receive such training often fail to develop the skills and/or beliefs required to implement technology effectively into their own classrooms. The study reported on in this article addresses this issue by providing insight into how a sample of early childhood preservice teachers who used iPads and their apps in their coursework and high-stakes early learning field placements made sense of using these devices as teachers. Such findings illuminate instructional opportunities for teacher educators to consider as they seek to assist their students in making sense about how to implement as well as adopt appropriate and effective instructional strategies into their own classrooms.     

Using video-based anchored instruction to enhance learning: Taiwan's experience

The purpose of this study is to investigate the effects of computer-assisted videodisc-based anchored instruction on attitudes toward mathematics and instruction as well as problem-solving skills among Taiwanese elementary students. Results from a t-test indicate a significant main effect on student attitudes toward mathematics. Results from a two-way Repeated Measures ANOVA show that students' problem-solving skills improve significantly with anchored instruction. Results also indicate that all the students benefit from the effects of anchored instruction on their problem-solving performance regardless of their mathematics and science abilities. The findings suggest that video-based anchored instruction provide a more motivating environment that enhanced students' problem-solving skills. This study is significant because it establishes an example of video-based anchored instruction for Taiwanese students and also provides empirical evidence of its effects on affective and cognitive responses among fifth graders in learning mathematics. This study is helpful to educators who want to help students learn to think and learn throughout technology.     

Are they the same? Comparing the instructional quality of online and face‐to‐face graduate education courses

As instructors adopt web‐based learning environments, they must consider how students’ evaluations of learning reflect the overall quality of instruction. Traditional course evaluations are used for faculty retention, tenure and promotion decisions, but also provide instructors with valuable information on the quality of their instruction. This study looks at response rates and compares instructional quality, using student course evaluations along with additional data from online and face‐to‐face graduate education courses, to evaluate the effectiveness of instruction. A statistical analysis of students’ course evaluations showed no significant difference in instructional quality based on the format used. Together with comparisons of student work, these results provide additional evidence in support of the finding of no significant difference between formats in the area of instructional quality.     

The Efficacy of Inquiry-Based Instruction in Science: a Comparative Analysis of Six Countries Using PISA 2015

This study is a comparative analysis of 15-year-old students’ scientific literacy, and its association with the instructional strategies that students experience, across six OECD countries that participated in PISA 2015. Across the six countries, the study investigates the efficacy of inquiry-based instruction in science in contrast with two other instructional approaches to teaching secondary science: adaptive and teacher-directed teaching. The analysis shows that students who reported experiencing high frequencies of inquiry strategies in their classrooms consistently evidenced lower levels of scientific literacy across the six countries. Benchmark analysis also showed, common to all six countries, a strongly positive association between the frequency of teacher-directed and adaptive teaching strategies and students’ scientific literacy. Additionally, the study disaggregates PISA’s composite variable representing inquiry-based instruction and shows that different components of inquiry are differentially associated with students’ scientific literacy. We discuss the implications of these analyses for science teacher educators, science teachers, and educational policy makers. In doing so, we add nuance to our understanding of the efficacy of inquiry-based instruction in science, suggesting that some components, as conceptualised and assessed in PISA, seem to suggest greater attention and use, and others more moderated use.

     

Promoting secondary school students’ evaluation of source features of multiple documents

The current research examined whether instructional activities centering on contrasting cases promoted secondary school students’ evaluations of source features present in a multiple-documents inquiry context. Two hypothetical students’ document evaluation strategy protocols were designed: One featured more sophisticated strategies commonly enacted by experts and better college students and a second featured less sophisticated strategies commonly enacted by secondary school students. A series of classroom-based activities required that students compare/contrast the two protocols to decide which were the best strategies when analyzing multiple scientific documents and why. The findings demonstrated that students who previously participated in the intervention activities included more scientific concepts from more useful documents when generating essay responses from memory, displayed better rankings of the usefulness of the set of multiple documents, and offered more principled justifications based on source feature evaluations of trustworthiness compared to students who instead received typical classroom instruction. We discuss the instructional implications of a contrasting-cases approach in facilitating secondary school students’ usage of source features within multiple-documents inquiry contexts.