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All Journal IJORER : International Journal of Recent Educational Research International Journal of Current Educational Research
Yuli Sutoto Nugroho
Queen Mary University of London, London
Education Languange, Linguistic, Communication & Media Mathematics Other

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Research on Bibliometric Analysis of Toulmin's Argument Pattern (TAP) in Learning Physics in the Last Ten Years Setyo Admoko; Kiki Lutfiah Arizah; Nadi Suprapto; Utama Alan Deta; Suliyanah Suliyanah; Eko Hariyono; Madlazim Madlazim; Rizki Fitri Rahima Uulaa; Mohammad Walid Rasuliy; Yuli Sutoto Nugroho
International Journal of Current Educational Research Vol. 2 No. 1 (2023): June
Publisher : Indonesia Emerging Literacy Education

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53621/ijocer.v2i1.184

Abstract

Objective: Toulmin's Argument Pattern (TAP) is the most widely used argumentation pattern and was first used in science education. TAP has a significant contribution as literature in explaining the concept of argumentation. This study aims to identify the contribution and describe the research profile of applying TAP in physics education during the last ten years. Method: The method used in this research is a bibliometric analysis based on Scopus data with the help of MS Excel and VOSviewer. The results of this study obtained 67 documents related to TAP. Results: Based on the results of bibliometric data visualization related to TAP, 4 clusters (1) discuss TAP focused on learning processes and activities in the classroom. (2) the application of TAP focused on assessing argumentation and critical thinking skills (3) TAP was associated with the identification of the components of scientific argumentation (4) TAP related to contextual problem-solving in improving scientific literacy. Novelty: Physics is the subject that appears the most in research related to the use of TAP, among other science subjects. Based on the results of this study, TAP has several contributions to physics learning in improving students' argumentation skills so that it can be an opportunity for further research. That way, the next one will be able to discuss more deeply related to the TAP, which is applied to physics learning to improve argumentation and critical thinking skills.
Development of Performance Assessment Instruments for Measuring Drawing Skills in Vocational Students Competence in Mechanical Engineering Expertise Ali Hasbi Ramadani; Ekohariadi Ekohariadi; Lilik Anifah; Yuli Sutoto Nugroho; Revi Safitri
IJORER : International Journal of Recent Educational Research Vol. 5 No. 2 (2024): March
Publisher : Faculty of Teacher Training and Education Muhammadiyah University of Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46245/ijorer.v5i2.551

Abstract

Objective: This research aims to develop a performance assessment instrument that can measure Drawing Skills in Machining Engineering Skills Competency Vocational School students, in addition to determining the feasibility and results of testing the performance assessment instrument. Method: This research is development research with a 4D Model, which consists of four stages, namely Defining, Designing, Developing, and Disseminating, and is limited to the development stage only. Results: The results of the research show that the vocational school students' drawing skills instrument for machining engineering skills competency was carried out by validating the contents of the instrument using the content validity ratio (CVR) method. Instrument trials were conducted at State Vocational School 2 Surabaya in the Machining Engineering skills program, totaling thirty-one students. Of the thirty instrument items developed, the test results referred to the CVR, total correlation, OMS, and IMS criteria; two items did not meet the requirements, so these items had to be revised or eliminated. Novelty: This research presents novelty by designing a particular Performance Assessment instrument to measure the drawing skills of vocational school students who have technical drawing competency, especially in the psychomotor aspect, so that it will make it easier for teachers to carry out assessments.
Analysis of Program Learning Outcome As A Result of Curriculum Evaluation In Higher Education Wahyu Dwi Mulyono; Gde Agus Yudha Prawira Adistana; Heri Suryaman; Desi Ratna Artaningtyas; Yuli Sutoto Nugroho
IJORER : International Journal of Recent Educational Research Vol. 5 No. 6 (2024): November
Publisher : Faculty of Teacher Training and Education Muhammadiyah University of Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46245/ijorer.v5i6.705

Abstract

Objective: One measure of achieving educational goals in higher education is the achievement of program learning outcomes (PLO). This learning achievement needs to be monitored and evaluated to develop the curriculum of the study program. This research aims to analyze the learning outcomes of undergraduate programs in building construction education. Method: This research is a type of evaluation research. The research subjects were all courses in The Undergraduate Program of Building Construction Education, Faculty of Engineering, Universitas Negeri Surabaya. Data collection techniques used documentation and observation. Data analysis used quantitative descriptive techniques. Results: The results of this study indicate that based on the evaluation of learning outcomes, several courses have yet to reach the achievement limit (below 75). Therefore, the study program needs to formulate actions that can be taken to improve this condition. The improvement plan is highly dependent on the study program's objectives, graduate users' needs, and each course's characteristics. Novelty: The novelty of this research is the differences in instruments, research subjects, time, and specific learning outcome programs in the building construction education study program.
The The Influence of Computational Thinking Skills, Critical Thinking Skills, and Collaborative Thinking Skills on the Learning Outcomes of Robotics Competence of Electrical Engineering Education Students Fendi Achmad; Agus Wiyono; M. Syariffuddien Z; Nur Kholis; Ali Nur Fathoni; Inaya Retno Putri; Daeng Rahmatullah; Yuli Sutoto Nugroho
IJORER : International Journal of Recent Educational Research Vol. 6 No. 1 (2025): January
Publisher : Faculty of Teacher Training and Education Muhammadiyah University of Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.46245/ijorer.v6i1.732

Abstract

Objective: This study aims to examine the influence of computational thinking skills, critical thinking skills, and collaborative thinking skills on the learning outcomes of robotics competencies of Electrical Engineering Education Students. Method: The sample in this study was 150 respondents, all of whom were students of the Electrical Engineering Education Study Program at Universitas Negeri Surabaya. The research data were obtained from filling out the questionnaire and analyzed quantitatively using the SEM PLS analysis technique with the help of the SmartPLS program. Results: This study shows that (1) Critical thinking skills have a positive effect on the educational robotics-based learning system, (2) computational thinking skills have a positive effect on the educational robotics-based learning system, (3) collaborative skills have a positive effect on the educational robotics-based learning system, (4) critical thinking skills have a positive effect on learning outcomes, (5) Computational Thinking Skills have a positive effect on learning outcomes, (6) Collaboration Skills have a positive effect on learning outcomes, (7) educational robotics-based learning systems have a positive effect on learning outcomes. Novelty: Educational robotics-based learning systems can be an ideal platform for developing computational, critical, and collaborative thinking skills among students. The use of robots as interactive and direct learning media through experiments and problem solving. This can help better understand technical concepts and increase confidence in facing complex challenges in the increasingly connected and rapidly changing real world.
Co-Authors Agus Wiyono Ali Hasbi Ramadani Ali Nur Fathoni Daeng Rahmatullah Desi Ratna Artaningtyas Ekohariadi Ekohariadi Fendi Achmad Gde Agus Yudha Prawira Adistana Hariyono, Eko Heri Suryaman Inaya Retno Putri Kiki Lutfiah Arizah Lilik Anifah M. Syariffuddien Z Madlazim Madlazim Mohammad Walid Rasuliy Nadi Suprapto Nur Kholis Revi Safitri Rizki Fitri Rahima Uulaa Setyo Admoko Suliyanah Suliyanah Utama Alan Deta Wahyu Dwi Mulyono