Relationship among laboratory instruction,attitude toward science,and achievement in science knowledge

This study investigated the use of a hands-on laboratory program as a means of improving student attitude toward science and increasing student achievement levels in science knowledge. Using a posttest-only control group design, curriculum referenced objective examinations were used to measure student achievement in science knowledge, and a posttest Q-sort survey was used to measure student attitude toward science. A one-way analysis of variance compared the groups' differences in achievement and attitude toward science. Analysis of covariance was used to determine the effect of the laboratory treatment on the dependent achievement variable with attitude toward science as the covariable. The findings showed that students who had regular laboratory instruction (a) scored significantly higher (p < .01) on the objective examination of achievement in science knowledge than those who had no laboratory experiences; (b) exhibited a moderate, positive correlation (r = .406) between their attitude toward science and their achievement; and (c) scored significantly higher (p < .01) on achievement in science knowledge after these scores were adjusted on the attitude toward science covariable. There were no significant differences in achievement or attitude toward science for the limited English proficiency groups. It was concluded that laboratory instruction influenced, in a positive direction, the students' attitude toward science, and influenced their achievement in science knowledge. It was recommended that science instruction include a regular laboratory experience as a demonstrated viable and effective instructional method for science teachers. This model of science instruction has been shown to be effective with students of diverse backgrounds who live within large urban centers. J Res Sci Teach 34: 343–357, 1997.     

The effects of hands-on and teacher demonstration laboratory methods on science achievement in relation to reasoning ability and prior knowledge

The present study compared the relative effects of hands-on and teacher demonstration laboratory methods on declarative knowledge (factual and conceptual) and procedural knowledge (problem-solving) achievement. Of particular interest were (a) whether these relationships vary as a function of reasoning ability and (b) whether prior knowledge and reasoning ability predict student achievement. Ninth-grade physical science students were randomly assigned to classes taught by either a hands-on or a teacher demonstration laboratory method. Students' reasoning ability and prior knowledge of science were assessed prior to the instruction. The two instructional methods resulted in equal declarative knowledge achievement. However, students in the hands-on laboratory class performed significantly better on the procedural knowledge test than did students in the teacher demonstration class. These results were unrelated to reasoning ability. Prior knowledge significantly predicted performance on the declarative knowledge test. Both reasoning ability and prior knowledge significantly predicted performance on the procedural knowledge test, with reasoning ability being the stronger predictor.     

Effect of instructional procedure and pupil locus of control on achievement and attitudes

The purpose of this study is to determine the effect of instructional procedures differing in degree of student control on achievement and attitudes of pupils identified as having an internal or external locus of control. Two sixth-grade classes (N=47) were divided into internal and external locus of control groups. Half of the internals and externals in each class were randomly assigned a structured instructional procedure and half assigned a contract procedure. A two-week unit on nutrition was taught to all students, using a structured or contract method. There were no significant differences in achievement among any of the groups. However, the internal-contract group seemed to show a more positive attitude toward the unit than did the other three groups. These results suggest that instructional procedure may not differentially affect achievement of internal and external sixth graders over a short period, but that attitudes toward instruction may be affected.     

The Function of a Research Bureau in a State Department of Education

ABSTRACT

A hands-on instructional approach with medium-achieving 10th-grade students (N = 294) successfully demonstrated the achievement of a conceptual change. Two teaching variations were applied (I-1, I-2), both dealing with a hands-on gene technology lesson in an out-of-school laboratory. I-2 additionally confronted the participants with alternative conceptions to some of the central issues involved in gene technology following a constructivist teaching model. The authors monitored the percentage of alternative conceptions by pretest, posttest, and delayed posttest. In the long term, I-2 abandoned more of students’ alternative conceptions in favor of the orthodox scientific view. Furthermore, a gender effect appeared: In the short term, more young men within I-2 were forced to shift to more scientific conceptions. Young women filed their alternative conceptions also in the long term, independently of the applied instructional method.     

Effects of 3D virtual reality of plate tectonics on fifth grade students' achievement and attitude toward science

This study examines the effects of a teaching method using 3D virtual reality simulations on achievement and attitude toward science. An experiment was conducted with fifth-grade students (N = 41) to examine the effects of 3D simulations, designed to support inquiry-based science curriculum. An ANOVA analysis revealed that the 3D group scored significantly higher on the achievement test (F = 7.03, p < .05) than the control group using traditional 2D visuals. A positive change of attitude toward science was identified in both 3D and 2D groups, but it was not statistically significant. A robust regression analysis revealed that neither gender nor ethnicity had any significant effect on achievement tests or attitude. However, prior attitude had a significant determining effect for later attitude in both groups.     

Effects of the Integrated Online Advance Organizer Teaching Materials on Students’ Science Achievement and Attitude

This two-group quasi-experimental study investigated the effects of the Online Advance Organizer Concept Teaching Material (ONACOM) integrated with inquiry teaching and expository teaching methods. Grade 7 students’ posttest performances on the light unit achievement and light unit attitude tests controlled for gender, previous semester science grade, and pretest scores were analyzed. No significant treatment effects were found between the inquiry and expository approaches. However, both groups demonstrated significant pretest–posttest gains in achievement and attitude. Independent from the method used, ONACOM was judged effective in both groups as students demonstrated increased achievement and attitude scores. ONACOM has a social and semantic network-aided infrastructure that can be adapted to both methods to increase students’ achievement and improve their attitude.     

Instructional strategy change and the attitude and achievement of seventh- and eighth-grade science students

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.     

Effects of Enhanced Laboratory Instructional Technique on Senior Secondary Students' Attitude Toward Chemistry in Oyo Township,Oyo State,Nigeria

The study examined the effect of supplementing laboratory instruction with problem solving strategy and or practical skills teaching on students' attitude toward chemistry. A total of 286 senior secondary class II students (145 males and 141 females) drawn from four local government areas in Oyo township in Oyo state, Nigeria, took part in the study. A pretest–posttest nonrandomized control group in a quasi-experimental setting using a 4× 2× 2 factorial representation formed the design of the study. Data analysis was done by the use of analysis of covariance but Scheffe post hoc analysis was carried out in the case of significant main effect of the treatment and also in the occasion of significant interaction effect. Graphical illustrations were however used to further explain the interaction effects. The results revealed that the use of enhanced laboratory instructional strategy significantly improved the attitudes of students toward chemistry. The results underscore the need for secondary school chemistry teachers to adopt the use of enhanced laboratory instructional strategy in order to promote good attitude on the part of the students toward learning of chemistry.     

Cognitive Research and Elementary Science Instruction: From the Laboratory,to the Classroom,and Back

Can cognitive research generate usable knowledge for elementary science instruction? Can issues raised by classroom practice drive the agenda of laboratory cognitive research? Answering yes to both questions, we advocate building a reciprocal interface between basic and applied research. We discuss five studies of the teaching, learning, and transfer of the “Control of Variables Strategy” in elementary school science. Beginning with investigations motivated by basic theoretical questions, we situate subsequent inquiries within authentic educational debates—contrasting hands-on manipulation of physical and virtual materials, evaluating direct instruction and discovery learning, replicating training methods in classroom, and narrowing science achievement gaps. We urge research programs to integrate basic research in “pure” laboratories with field work in “messy” classrooms. Finally, we suggest that those engaged in discussions about implications and applications of educational research focus on clearly defined instructional methods and procedures, rather than vague labels and outmoded “-isms.”     

Instructional Efficiency of Tutoring in an Outreach Gene Technology Laboratory

Our research objective focused on examining the instructional efficiency of tutoring as a form of instructional change as opposed to a non-tutoring approach in an outreach laboratory. We designed our laboratory based on cognitive load (CL) theory. Altogether, 269 twelfth-graders participated in our day-long module Genetic Fingerprinting. In a quasi-experimental design, the control group (n?=?121) followed the non-tutoring approach previously used, while the treatment group (n?=?148) followed the newly developed tutoring approach. Each tutor was in charge of two student work groups and recorded the tutoring activities requested by the tutees throughout the day. We measured the students’ invested mental effort (as an index of CL), cognitive achievement (in a pre-post-follow-up design), and the students’ cooperation in their work groups as well as calculated the student instructional involvement (as a motivational variable). Additionally, we examined which aspects of the hands-on phases were of particular relevance to the students’ invested mental effort. Unexpectedly, the combined mental effort and cognitive achievement data indicated that our implemented tutoring approach resulted in a lower instructional efficiency despite the relevance of tutoring for students’ mental effort invested during the experimental phases. Most of the tutor assistance was unnecessarily requested for performing the procedural steps and using the equipment. Our results indicate an assistance dilemma and consequently underscore the necessity for effective tutor preparation in outreach laboratories.     

The effect of videotape and written channels of communication on the science attitudes of preservice elementary teachers

The purpose of this study was to assess the effect of two channels of communication on attitude change in preservice elementary teachers toward the teaching of science. A science attitude scale was administered as a pretest, posttest, and retention test to 66 preservice elementary school teachers. One analysis of variance for repeated measures was conducted. It was found that videotape and written channels of communication were equally effective in science attitude change.     

以评估为契机,改革实验室的建设与管理

高等院校基础课教学实验室评估是推动高等院校实验教学与实验室建设的一项重要措施，大连水产学院的基础物理实验室凭借评估之机，全面加强实验室建设和课程建设，科学、规范的管理实验室，坚持在教学改革和教学实践中培养和锻炼队伍，通过实施以学生为主体的阶梯式教学法，推进教学改革和教学研究工作。经过实验复评，巩固了评估成果，发挥了示范与带动作用，再一次证实了以评促建、以评促改、以评促管、重在建设的基本原则是正确的。     

A curriculum strategy that expands time for in-depth elementary science instruction by using science-based reading strategies: Effects of a year-long study in grade four

An integrative curriculum strategy emphasizing science process skills and hands-on activities expanded the time allocated for in-depth science instruction by replacing a district-adopted basal reading program with science-content reading designed to facilitate applied comprehension skills. This study investigated the combined effect of these curricular components (i.e., in-depth science, science-content-based reading) upon student achievement, attitudes, and self-confidence in both science and reading over the school year. In doing so, teachers in three fourth-grade classrooms each incorporated applied reading (and language arts) objectives into science reading activities as part of a daily, expanded, in-depth science teaching block that encompassed the total instructional time originally allocated to reading and science. Using multivariate covariance analysis, results showed that the students in the experimental group, compared to demographically similar controls, not only displayed significantly greater standardized test achievement as measured by the Iowa Tests of Basic Skills reading subtest and the Metropolitan Achievement Test science subtest, but also displayed a more positive attitude toward science and reading and greater self-confidence in learning science. Implications of the strategy for future curriculum research in science education are discussed.     

The relative effects and equity of inquiry‐based and commonplace science teaching on students' knowledge,reasoning, and argumentation

We conducted a laboratory‐based randomized control study to examine the effectiveness of inquiry‐based instruction. We also disaggregated the data by student demographic variables to examine if inquiry can provide equitable opportunities to learn. Fifty‐eight students aged 14–16 years old were randomly assigned to one of two groups. Both groups of students were taught toward the same learning goals by the same teacher, with one group being taught from inquiry‐based materials organized around the BSCS 5E Instructional Model, and the other from materials organized around commonplace teaching strategies as defined by national teacher survey data. Students in the inquiry‐based group reached significantly higher levels of achievement than students experiencing commonplace instruction. This effect was consistent across a range of learning goals (knowledge, reasoning, and argumentation) and time frames (immediately following the instruction and 4 weeks later). The commonplace science instruction resulted in a detectable achievement gap by race, whereas the inquiry‐based materials instruction did not. We discuss the implications of these findings for the body of evidence on the effectiveness of teaching science as inquiry; the role of instructional models and curriculum materials in science teaching; addressing achievement gaps; and the competing demands of reform and accountability. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:276–301, 2010     

汉语言文学专业远程教育个性化教学初探

随着远程开放教育模式的改革和探索,教师面授课程已经逐渐为网络教学所替代。根据学生的基础和个性的不同,分别采取不同的教育方法,施教不同的教育内容;针对不同教材,采用不同的授课方式,是远程个性化教学的必然要求。     

Effects of a Demonstration Laboratory on Student Learning

Laboratory and demonstration have long been used to supplement lecture in chemistry education. Current research indicates that students are better served by laboratories which exercise the higher-order cognitive skills, such as inquiry-based laboratories. However, the time and the resources available to perform these recommended types of laboratories are continually shrinking. Due to these factors, a demonstration-laboratory was designed to allow students to make observations through demonstration rather then through hands-on laboratory. For this study, the hands-on procedures of an inquiry style laboratory were replaced by an instructor demonstration of these same procedures. A significant difference was found between student conceptual understanding before and after the experiment, indicating that students performing the laboratory experiment and students viewing the demonstration-laboratory had an increase in conceptual understanding. However, no significant difference was found between the conceptual understanding of the two groups after the experiment, indicating that students learn roughly the same from both methods and that the demonstration-laboratory at least does no harm to the students conceptually. Long-term effects on student understanding were not measured. Student opinions comparing the demonstration laboratory to a hands-on laboratory were also collected and analyzed.     

Moving Beyond Legislation to Create and Sustain Intentionality in Reading Instruction

Current legislation has exerted tremendous influence on the instructional methods used by reading teachers. Historically, however, neither mandated curriculum nor forced change has proven consistently successful in helping sustain long-term change in teachers' instructional practices or student achievement gains. Using theories of motivation and behavior change, we propose the intentional teaching model to support and facilitate fundamental change in the instructional practices of reading teachers for the benefit of the populations they serve.     

Effects of Toy Crane Design-Based Learning on Simple Machines

The aim of this 2-group study was to investigate the following question: Are there significant differences between scaffolded design-based learning controlled using 7 forms and teacher-directed instruction methods for the toy crane project on grade 7 students’ posttest scores on the simple machines achievement test, attitude toward simple machines, and attitude toward creativity in simple machines after adjusting for their respective pretest scores and the prior semester science grades? The study group (N = 65) consisted of grade 7 students in public middle schools in Burdur, Turkey. There were significant treatment effects favoring the first method with large effect sizes on both achievement and creative attitude scores. Teaching topics about simple machines with the design-based method increased students’ achievement and creative attitude without disadvantaging their attitude toward the topic as they constructed new knowledge through each step of the precise process.