Reform-Based Science Teaching:
Teachers’ Instructional Practices
and Conceptions

Barak, Moshe; Shakhman, Larisa

doi:10.12973/ejmste/75301

Cited by 27 publications

(19 citation statements)

References 30 publications

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“…Based on the NSES (NRC, 1996) (NRC, 1996(NRC, , 2012. Research evidence showed that using inquiry-based instructional approach was beneficial to promote students" understandings of the content taught and their learning outcomes in diverse subject areas and various grade levels (Akerson & Hanuscin, 2007;Barak & Shakhman, 2008;Fishman et al, 2003;Lin, et al, 2014;Luft, 2001;Marx, et al , 2004;Santos-Trigo, 2008). Espinosa-Bueno et al (2011) confirmed the effects of inquiry-based teaching, and that it enabled students to develop habits of observation and reasoning.…”

Section: Theoretical Framework Scientific Inquirymentioning

confidence: 99%

A Case Study of Increasing Vocational High School Teachers Practices in Designing Interdisciplinary Use of Scientific Inquiry in Curriculum Design

Chang

2015

EURASIA J MATH SCI T

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The primary objective of this study was to determine how experience in learning to teach scientific inquiry using a practical approach affected teacher"s attitudes, evaluations of use of inquiry and their actual design of inquiry based instruction. The methodology included the use an approach incorporating inquiry methodology combined with a technologyinfused and engineering rich approach called "Intelligent Robotics" to help teachers learn and use a new approach to teaching scientific inquiry. The findings showed that these teachers progressively moved from more teacher-centered thinking about teaching to student-centered thinking and actions incorporating scientific inquiry. They also worked together in designing an interdisciplinary inquiry curriculum, providing an effective alternative to traditional rigid standards based curriculum and teacher directed instruction.Keywords: curriculum design, interdisciplinary, scientific inquiry, vocational high school teacher BACKGROUND AND PURPOSE Scientific inquiry as an approach in science teachingScientific inquiry has been emphasized in the National Science Education Standards (NSES) as a set of pedagogical methods that represents scientific practices and promotes students" acquisition of content knowledge through the problem solving process (National Research Council [NRC], 2000). Numerous scholars (i.e., Hackling & Garnett, 1995;Lin et al., 2014;Luft, 2001;Staer, Goodrum, & Hackling, 1998;) have indicated that the cultivation of students" inquiry abilities should be at the center of contemporary science education. Therefore, providing students with active opportunities to inquire and receive relevant training during the teaching process has become an essential instructional activity.Through Taiwan"s new curriculum standards for senior high-school and vocational education announced in 2006, Taiwan educational leaders hoped to provide innovative curriculum and instruction in every high-school classroom in order to furnish students with a real-world learning environment and cultivate their ability to solve realistic problems. It also aimed to motivate students" curiosity toward advanced technology, encourage them to explore actively and solve problems scientifically, and develop a positive attitude toward scientific learning. Consistent with these NSES standards, the "High Scope Project" funded by the National Science Council [NSC] of Taiwan (NSC, 2007) was initiated to reach the innovative goals of this reform effort, which mainly was intended to design an experimental curriculum with an emphasis of integrating advanced technology into the original high-school curriculum by applying an inquiry Within this project, several "university research teams" and nearby "secondary school teams" worked cooperatively to design and implement the "high scope curriculum" in the targeted high-school. After the original High Scope Project, a second phase of High Scope was initiated. Accordingly, this study was conducted under the second phase of the High Scope Project with durati...

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Section: Theoretical Framework Scientific Inquirymentioning

confidence: 99%

A Case Study of Increasing Vocational High School Teachers Practices in Designing Interdisciplinary Use of Scientific Inquiry in Curriculum Design

Chang

2015

EURASIA J MATH SCI T

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“…Curricula are also usually decontextualised, focusing on knowledge without a "real life" meaning to students (Makrakis & Kostoulas-Makrakis, 2005). These discrepancies seem to be not only an outcome of the difficulty translating constructivism in curriculum development and teaching practice, but also of the misleading conception of constructivism as a homogeneous philosophy (Dancy & Henderson, 2007;Barak & Shakhman, 2008). The view that constructivism is synonymous with approaches to teaching that are learner-centred based on the utilisation of previous knowledge is misleading.…”

Section: The Mainstream or Reformist Viewmentioning

confidence: 99%

Developing and Applying a Critical and Transformative Model to Address ESD in Teacher Education

Kostoulas‐Makrakis¹

2010

Journal of Teacher Education for Sustainability

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“…The effective implementation of research-validated instructional strategies will be referred to as reformed instruction (see MacIsaac and Falconer 2002). Despite the evidence in favor of the adoption of reformed teaching methods, many instructors in K-12 and higher education institutions have been reluctant to adopt these new strategies (Barak and Shakhman 2008;Henderson and Dancy 2007) and participation in professional development may be insufficient to promote the transition of these alternative approaches to instruction (e.g., Ebert-May et al 2011). University faculty members report several barriers to instructional reform including limited training, insufficient time, and lack of instructional and peer support (Dancy and Henderson 2010;Fairweather 2010;Henderson and Dancy 2007;Sunal et al 2001;Wieman et al 2010).…”

Section: Introductionmentioning

confidence: 99%

“…Much of the research on this subject has occurred in K-12 or pre-service settings and examined instructors' beliefs regarding their roles in the classroom, how students learn best, and the most effective types of student-instructor interactions (Barak and Shakhman 2008;Fang 1996;Fishbein and Ajzen 1975;Hake 1998;Jones and Carter 2007;Kagan 1992;Luft and Roehrig 2007;Richardson 1996). Beliefs affect action (Guskey 1986;Hashweh 1996;Kang and Wallace 2005) and any steps seeking to promote lasting classroom change must consider a teacher's pedagogical beliefs (Barak and Shakhman 2008;Guskey 1986;Luft and Roehrig 2007). Successfully shifting the pedagogical beliefs of instructors toward a reformed mindset is essential if professional development is to positively influence teaching in STEM classrooms (Keys and Bryan 2001).…”

Section: Introductionmentioning

confidence: 99%

Challenging instructors to change: a mixed methods investigation on the effects of material development on the pedagogical beliefs of geoscience instructors

Pelch

McConnell

2016

IJ STEM Ed

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Background: STEM educational reform encourages a transition from instructor-centered passive learning environments to student-centered, active learning environments. Instructors adopting these changes incorporate research-validated teaching practices that improve student learning. Professional development that trains faculty to implement instructional reforms plays a key role in supporting this transition. The most effective professional development experiences are those that not only help an instructor redesign a course, but that also result in a permanent realignment of the teaching beliefs of participating instructors. Effective professional development features authentic, rigorous experiences of sufficient duration. We investigated changes in the teaching beliefs of college faculty resulting from their participation in the Interdisciplinary Teaching about the Earth for a Sustainable Future (InTeGrate) project that guided them in the development of reformed instructional materials for introductory college science courses. A convergent parallel mixed methods design was employed using the Teacher Belief Interview, the Beliefs About Reformed Science Teaching and Learning survey, and participants' reflections on their experience to characterize pedagogical beliefs at different stages of their professional development.

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Reform-Based Science Teaching: Teachers’ Instructional Practices and Conceptions

Cited by 27 publications

References 30 publications

A Case Study of Increasing Vocational High School Teachers Practices in Designing Interdisciplinary Use of Scientific Inquiry in Curriculum Design

A Case Study of Increasing Vocational High School Teachers Practices in Designing Interdisciplinary Use of Scientific Inquiry in Curriculum Design

Developing and Applying a Critical and Transformative Model to Address ESD in Teacher Education

Challenging instructors to change: a mixed methods investigation on the effects of material development on the pedagogical beliefs of geoscience instructors

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