THINKING SCHOOLS,LEARNING NATION: A VISION FOR MATHEMATICS EDUCATION AT SINGAPORE POLYTECHNIC

Singapore Polytechnic offers a tertiary education to O and A level school-leavers leading to more than 20 full-time and part-time diplomas in business, computing, engineering, maritime studies, multimedia, optometry, and technology. The mathematics and science department at Singapore Polytechnic supports the need for a sound foundation in mathematics by offering modules in engineering mathematics for students of the engineering courses. The mathematics modules range from a one-year to a two-and-a-half-year module depending on students entry abilities and the extent of mathematics knowledge needed in the respective courses. This article describes some of the initiatives taken in conjunction with the national objective of having 60% of the population achieve a tertiary qualification to support the knowledge-based economy. These initiatives include programs designed for the varying abilities of students and the incorporation of appropriate use of information technology to make students learning experiences more varied and interesting. These initiatives have brought faculty to the realization that they too are involved in a process of lifelong learning.     

研究生层次工程类应用型人才培养模式的探索与实践

科技进步有力地促进了工程技术发展,工程技术发展又为科技进步提供了强大支撑,同时也对应用型人才应具备的素质和能力提出了新的更高的要求。然而,就实际情况来看,我国高校现有的人才培养模式都不同程度存在着重理论、轻工程实践的问题,所培养的人才还不能适应工程技术现代化的需求,应进一步改进。本文在分析我国工程类应用人才培养现状的基础上,对研究生层次工程类应用人才特征与能力要求进行了研究,并对该类人才的培养模式进行了探索与实践。     

Programme Quality Assessment by the Implication of Variable Entry Qualifications on Students' Performance

Since its inception 30 years ago, the then Department of Engineering Science, Institut Teknologi MARA (ITM) was given the responsibility of preparing all the students in the first year engineering programmes by giving enough knowledge in basic science and mathematics. The nation's vision to become a fully‐industrialised economy by the year 2020 required all institutes of higher learning (IHLs) in Malaysia to increase their intake of students in the science and technology courses, especially in engineering. However, at the upper secondary education level, students have the freedom to choose between the science‐based or non‐science combination of subjects. This has led to a dearth of science‐based students enrolling in IHLs. Because ITM believes that it is possible to educate individuals from various backgrounds, the engineering courses are open to students with a variety of academic qualifications. Special bridging courses were designed and created for such students since late 1996. The success or failure of the new courses can be assessed after the students have gone through the proper first year engineering courses which consist of Mathematics, Physics and Chemistry. This paper reports on a pilot study on the pioneer groups of students with variable entry qualifications to assess the effectiveness of the courses. The study involved the analysis of the students’ examination results as a performance indicator, and it was found that the bridging programme for non‐science students needed to be redesigned. It is also proposed that to improve the quality of the programme, and hence students’ performance, a regular review be conducted, student support activities be continued and to expand the use of self‐study materials.     

Problem-Based Learning for Foundation Computer Science Courses

The foundation courses in computer science pose particular challenges for teacher and learner alike. This paper describes some of these challenges and how we have designed problem-based learning (PBL) courses to address them. We discuss the particular problems we were keen to overcome: the purely technical focus of many courses; the problems of individual learning and the need to establish foundations in a range of areas which are important for computer science graduates. We then outline our course design, showing how we have created problem-based learning courses. The paper reports our evaluation of the approach. This has two parts: assessment of a trial, with a three-year longitudinal follow-up of the students; reports of student learning improve-ment after we had become experienced in full implementation of PBL. We conclude with a summary of our experience over three years of PBL teaching and discuss some of the pragmatic issues around introducing the radical change in teaching, maintaining staff support, and continuing refinement of our PBL teaching. We also discuss some of our approaches to the commonly acknowledged challenges of PBL teaching.     

工程光学类课程思政教育的探索与实践

为增强大学生思想政治教育,思政入课堂是有效方法,如何将思政元素融入理工类课程是高校教学改革的一项重要任务。该文以工程光学类课程为例,对理工课程的思政教育方法进行探索与实践,对思政脉络、教学手段等进行介绍,并总结课程实施的经验与体会,可为其他理工类课程的思政教育提供参考。     

The effect of authentic project-based learning on attitudes and career aspirations in STEM

Can engaging college students in client-centered projects in science, technology, engineering, and mathematics (STEM) coursework increase interest in STEM professions? The current study explored the effectiveness of project-based learning (PjBL) courses on student attitudes, major choice, and career aspirations in STEM. Framed in expectancy-value and social cognitive career choice models, we examined the effect of engaging in at least one authentic, project-based course during the first four semesters of college on student STEM attitudes and career aspirations in a quasi-experimental study with a sample of (N = 492) natural science and engineering students. STEM self-efficacy and subjective task value variables (STEM attainment, intrinsic and utility value of STEM courses, and relative cost associated with engaging in STEM courses) were examined as mediators of the relationship between classroom project-based experiences and STEM career aspirations. Gender and underrepresented minority status were also examined. We found that engaging in at least one project-based course during the first four semesters affected student perceptions of STEM skills, perceptions of the utility value of participating in STEM courses, and STEM career aspirations. Furthermore, we found that the effect of project-based courses on STEM career aspirations was mediated by STEM skills and perceptions of course utility. The effect of PjBL was not moderated by race or gender. We highlight areas of future research and the promise of PjBL for engaging students in STEM professions.     

STEM the Boredom: Engage Students in the Australian Curriculum Using ICT with Problem-Based Learning and Assessment

The well-being of modern economies and societies is increasingly requiring citizens to possess capabilities in integrating knowledge and skills in science, technology, engineering and science to solve problems. However, by the end of schooling, the majority of Australian students show little interest in these discipline areas and have no plans to continue study or work in them; many refer to these disciplines as boring. Further, they typically have little experience in integrating knowledge and skills from these disciplines and/or in applying this to solve relevant problems. Therefore, there is a need to engage students with such learning experiences to develop their interest and capabilities, particularly during the early years of secondary schooling. This is not easy for teachers to respond to, but with the support of modern digital technologies and the new Australian curriculum, the potential is expanded and the challenge is more readily achievable. However, appropriate pedagogies need to be supported that include more authentic approaches to assessment. Learning activities need to support students to integrate knowledge and skills across discipline areas in tackling real problems, and this also needs to be reflected in how students are assessed. In this paper, I will draw on personal experience as a teacher, a review of recent literature, components of the Australian Curriculum, and findings from research projects associated with my University research centre, to argue for, and illustrate how, teachers can orchestrate powerful learning activities to promote an interdisciplinary approach to STEM.     

Preparing teachers as researchers in courses on methods of teaching science

The four standards for professional development of teachers of science from the National Science Education Standards (NRC, 1996) provided a frame for reflection upon ways in which prospective teachers engaged in research in my courses on methods of teaching science. Students learned both science content and science pedagogy by inquiry. An extended research project helped students to integrate knowledge of science, learning, pedagogy, and students, and to apply that to teaching science. Students built knowledge, skills, and attitudes for lifelong learning by participating in a research festival and presenting at conferences. I designed this science-teaching methods course in the context of a teacher education program that is attempting to implement reform approaches to instruction. © 1998 John Wiley & Sons, Inc. J Res Sci Teach 35: 791–809, 1998.     

Collaborative Action Research on Technology Integration for Science Learning

This paper briefly reports the outcomes of an action research inquiry on the use of blogs, MS PowerPoint [PPT], and the Internet as learning tools with a science class of sixth graders for project-based learning. Multiple sources of data were essential to triangulate the key findings articulated in this paper. Corresponding to previous studies, the incorporation of technology and project-based learning could motivate students in self-directed exploration. The students were excited about the autonomy over what to learn and the use of PPT to express what they learned. Differing from previous studies, the findings pointed to the lack information literacy among students. The students lacked information evaluation skills, note-taking and information synthesis. All these findings imply the importance of teaching students about information literacy and visual literacy when introducing information technology into the classroom. The authors suggest that further research should focus on how to break the culture of “copy-and-paste” by teaching the skills of note-taking and synthesis through inquiry projects for science learning. Also, further research on teacher professional development should focus on using collaboration action research as a framework for re-designing graduate courses for science teachers in order to enhance classroom technology integration.     

Course Revision in Introductory STEM Courses: An Exploratory Study at an HBCU Community College

ABSTRACT

This paper presents the results of an exploratory study of a professional development-based effort at one of the nation’s 14 federally designated Historically Black Colleges and Universities community colleges. Course revisions included introductory courses in its Natural Sciences department. The goal was to improve students’ critical-thinking and reading skills in science through faculty professional development opportunities, to improve success across all science, technology, engineering, and mathematics (STEM) curricula. This study examines faculty-selected professional development efforts combined with time release for course revision, and how it impacted students’ attitudes toward science and students’ critical-thinking skills. Six of the department’s 11 full-time faculty instructing introductory science courses received training in WestEd’s Reading Apprenticeship program and on critical-thinking skills. These faculty then revised their courses as they chose based on techniques learned during their training. A comprehensive assessment that included extensive course videos, pre- and post-tests of students’ attitudes toward science the Critical Thinking Assessment Test, and focused interviews with faculty were conducted. Despite major cuts in state support, turnover of key administrators, and other challenges, improvements in student attitudes toward STEM topics and critical-thinking skills were documented as faculty expanded their teaching tool-kits.     

Authentic Research Experience and “Big Data” Analysis in the Classroom: Maize Response to Abiotic Stress

Integration of inquiry-based approaches into curriculum is transforming the way science is taught and studied in undergraduate classrooms. Incorporating quantitative reasoning and mathematical skills into authentic biology undergraduate research projects has been shown to benefit students in developing various skills necessary for future scientists and to attract students to science, technology, engineering, and mathematics disciplines. While large-scale data analysis became an essential part of modern biological research, students have few opportunities to engage in analysis of large biological data sets. RNA-seq analysis, a tool that allows precise measurement of the level of gene expression for all genes in a genome, revolutionized molecular biology and provides ample opportunities for engaging students in authentic research. We developed, implemented, and assessed a series of authentic research laboratory exercises incorporating a large data RNA-seq analysis into an introductory undergraduate classroom. Our laboratory series is focused on analyzing gene expression changes in response to abiotic stress in maize seedlings; however, it could be easily adapted to the analysis of any other biological system with available RNA-seq data. Objective and subjective assessment of student learning demonstrated gains in understanding important biological concepts and in skills related to the process of science.     

Information fluency for undergraduate biology majors: applications of inquiry-based learning in a developmental biology course

Many initiatives for the improvement of undergraduate science education call for inquiry-based learning that emphasizes investigative projects and reading of the primary literature. These approaches give students an understanding of science as a process and help them integrate content presented in courses. At the same time, general initiatives to promote information fluency are being promoted on many college and university campuses. Information fluency refers to discipline-specific processing of information, and it involves integration of gathered information with specific ideas to form logical conclusions. We have implemented the use of inquiry-based learning to enhance and study discipline-specific information fluency skills in an upper-level undergraduate Developmental Biology course. In this study, an information literacy tutorial and a set of linked assignments using primary literature analysis were integrated with two inquiry-based laboratory research projects. Quantitaitve analysis of student responses suggests that the abilities of students to identify and apply valid sources of information were enhanced. Qualitative assessment revealed a set of patterns by which students gather and apply information. Self-assessment responses indicated that students recognized the impact of the assignments on their abilities to gather and apply information and that they were more confident about these abilities for future biology courses and beyond.     

关于高等数学教学方法与手段的改革探析

高等数学是理工科院校的专业基础课程,高等数学的教学方法和手段与教学质量息息相关,如何改革高等数学的教学方法和手段提高教学质量。更好的为学生打好专业学习的基础是高等数学教学的主要课题。     

Teaching and Learning Basic Electronics with a Professional Circuit Analyzer Program

Modem technology offers powerful professional programs that were originally designed for scientific and practical engineering purposes. These programs are now easily operated by simple graphic interfaces. Even if they offer much more than we may need for instructional purposes, these tools can still be very useful as a support for teaching and learning both the subject matter domain and additional general skills from relatively early stages of scientific and technological education. This article describes the instructional approaches developed for using a professional electronic circuit analyzer program as a learning environment for students in basic electronics courses and discusses the general implications of using such programs for instruction.     

(Re)framing a philosophical and epistemological framework for teaching and learning in STEM: Emerging pedagogies for complexity

Today’s learners are engaging in study where access to knowledge is easier than it ever has been in human history. Rapid advancement of technology and the increasing ease with which communication and interaction can occur has dramatically changed the landscape in which teachers of science, technology, engineering and mathematics (STEM) operate. The contemporary skills that students are required to possess include inter alia problem solving, creativity, teamwork abilities, communication skills and emotional intelligence. Despite the universal acceptance of their importance, these skills are commonly cited as underdeveloped and in addition, are still accompanied by outmoded ‘traditional’ forms of teaching and assessment. While the approaches of twentieth-century education were successful in developing knowledge stores, the ubiquity of access to knowledge—coupled with the constantly changing nature of the world today—requires alternative conceptions of teaching and learning. This article focuses primarily on an exploration of learning metaphors and teaching with the overall lens of creating self-regulated and furthermore, self-determined learners. The article begins with an exploration of learning in STEM education and a critique of the pedagogical perspective, discussing why this epistemology may be insufficient for contemporary STEM learning. The article then considers an alternative and potentially more contemporary notion; the emergent pedagogic space. The article presents a theoretical model to conceptualise learning in STEM education, with the goal of informing both practice and research. The realisation of this proposed emergent pedagogical space is explored through an applied case study from a design and technology context.     

Investigating Students’ Learning Through Co-designing with Technology

Involving students in the co-design of educational curricula and practices can benefit both students and teachers. Students who participate in co-design may show better learning or increased agency or engagement. In the present study, we investigated what kind of science knowledge or practices can be learned by student co-designers while engaging in co-design practices and how that learning happens with six high school students. We created a model to guide the analysis of students’ learning with technology in co-designing processes. The results revealed that students learned engineering design process even if no explicit instruction on engineering learning was given. Also, our analysis suggested that co-designing with technology enabled learning of the engineering design process and potentially furthered learning of science because it promoted knowledge integration. The results have implications for understanding and enhancing engineering design and science learning through co-designing with technology.

     

The best laid plans: Educational innovation in elementary teacher generated integrated STEM lesson plans

ABSTRACT

Students need to be prepared for the 21st century by developing the literacy skills necessary for participating in the age of synthesis—an age that requires a progressive set of skills and knowledge. The authors identified nine educational innovations that are perceived to be effective for preparing students for the 21st century age of synthesis society. They coded a collection of 39 teacher-generated Grade 3–5 science, technology, engineering, and mathematics (STEM) lesson plans to document the extent to which the teachers included these nine educational innovations their STEM lesson planning. The authors found practices such as project-based and student-centered learning (which are common established approaches to teaching STEM) to be strongly represented in the plans, whereas practices such as family involvement and place-based learning (which have not been traditionally used in STEM instruction) were less evident in the plans. In their discussion they explore the implications for STEM teaching, and potential directions for future research.