Developing SIPCaR projects utilizing modern technologies

Acut, Dharel P.

doi:10.31129/lumat.10.1.1667

Cited by 2 publications

(1 citation statement)

References 30 publications

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“…Hence, recent efforts to reform science education have centered on teaching students science that deepens their understanding of the nature of science, equips them with the skills to critically evaluate scientific information as well as to apply it in real-world contexts, and sets them on a path of lifelong learning in science (Dass, 2005;Acut & Latonio, 2021). Specifically, Acut (2022) implemented science investigatory projects, capstone projects, and robotics projects which provided numerous opportunities for students to achieve high-level learning outcomes, collaborate, and innovate modern technologies that could potentially help emerging environmental problems such as climate change and pollution. Alarde, Bartolabac, Acut, Cane and Magsayo (2022), in particular, created an arduino-based photobioreactor that efficiently removed carbon dioxide levels in the atmosphere while also progressing, resulting in a counterintuitive approach to climate change and global warming.…”

Section: Introductionmentioning

confidence: 99%

Effectiveness of Science-Technology-Society (STS) approach on students’ learning outcomes in science education: Evidence from a meta-analysis

Acut¹,

Antonio²

2023

J. Technol. Sci. Educ.

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Scientific literacy development significantly impacts real-world outcomes, leading to scrutiny of instructional approaches for global reform in science education. This study aimed to determine the efficacy of the Science-Technology-Society (STS) approach in improving students' scientific learning outcomes. A quantitative research design, using meta-analysis guided by the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) protocol, was used to determine the effect sizes of previous studies on the STS approach's effectiveness in science learning and teaching. The study analyzed 16 effect sizes from 14 empirical studies from January 2017 to September 2022 using Harzing's Publish or Perish application and Comprehensive Meta-Analysis (CMA) software. Results showed that the STS approach significantly and positively impacts students' learning outcomes (g = 1.882), particularly psychomotor skills, affective domain, and cognitive skills. Moderator analysis showed that STS is an effective teaching strategy that yields similar positive results regardless of the assessed learning outcomes. The findings demonstrated that the STS approach facilitates students' development of scientific knowledge, skills, and mindset to innovate for real-world problems. These findings provided empirical information that are essential for learning analytics applications in predicting learners' performance and diagnosing instructional practices. Implications for future research and practice, as well as addressing publication bias, are highlighted in order to maximize the benefits of the STS approach in science education.

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Section: Introductionmentioning

confidence: 99%

Effectiveness of Science-Technology-Society (STS) approach on students’ learning outcomes in science education: Evidence from a meta-analysis

Acut¹,

Antonio²

2023

J. Technol. Sci. Educ.

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From classroom learning to real-world skills: an autoethnographic account of school field trips and STEM work immersion program management

Acut

2024

Discip Interdscip Sci Educ Res

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Quality science education is crucial in preparing students for real-world challenges by fostering scientific literacy and critical thinking skills. Field trips and work immersion programs support this goal by providing hands-on experiences and real-world applications of scientific concepts, thereby enhancing student engagement and understanding. This autoethnographic study explores the management of school field trips and work immersion programs, emphasising their impact on student engagement and learning outcomes. Through personal experiences and reflective practices, I examine the logistical planning, risk management, and curriculum alignment necessary for successful implementation. The findings highlight how these programs enhance students’ understanding of scientific principles, foster critical thinking, and encourage STEM career interests. Key strategies include collaborative planning, flexibility, and ongoing evaluation, providing insights into optimising educational programs and bridging the gap between classroom learning and real-world application.

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Developing SIPCaR projects utilizing modern technologies

Cited by 2 publications

References 30 publications

Effectiveness of Science-Technology-Society (STS) approach on students’ learning outcomes in science education: Evidence from a meta-analysis

Effectiveness of Science-Technology-Society (STS) approach on students’ learning outcomes in science education: Evidence from a meta-analysis

From classroom learning to real-world skills: an autoethnographic account of school field trips and STEM work immersion program management

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