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Project Based Learning (PjBL) Learning Model to Train The Pedagogical Competencies of Prospective Science Teacher Students Astriani, Dyah; Fauziah, An Nuril Maulida; Hendratmoko, Ahmad Fauzi; Rosdiana, Laily; Martini, Martini
Jurnal Pendidikan: Teori, Penelitian, dan Pengembangan VOL 10, NO 7: JULY 2025
Publisher : Universitas Negeri Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17977/jptpp.v10i7.25911

Pedagogical competence is very necessary to improve the learning process. Pedagogical competency is a competency that prospective science teachers must have. This relates to the duties of teachers who are not only teachers, but also as educators and mentors of students. Prospective teachers need to have both academic and non-academic competencies. This research aims to analyze the pedagogical competence of prospective teachers in terms of their ability to prepare learning plans. The method used by researchers in this research is a project with a quantitative approach. The research results show that prospective science teacher students are able to design learning by implementing innovative learning models, utilizing relevant technology, with the hope of making it easier for students to understand the learning material

PEMANFAATAN MEDIA NASA SPACE PLACE DALAM PEMBELAJARAN STEM PADA MATERI STRUKTUR BUMI : STUDI LITERATUR Ummah, Syifa’ul; Agustine, Laila Rizky Agustin; Kumalasari, Devi; Nafila, Faradifa; Hendratmoko, Ahmad Fauzi; Nurita, Tutut; Widodo, Wahono
LENSA (Lentera Sains): Jurnal Pendidikan IPA Vol. 15 No. 2 (2025): November 2025
Publisher : Faculty of Teaching and Education, University of Wiraraja

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24929/lensa.v15i2.871

Pemanfaatan Media NASA SPACE PLACE Dalam Pembelajaran STEM Pada Materi Struktur Bumi : Studi Literatur. Penerapan pembelajaran berorientasi STEM yang memanfaatkan media NASA Space Place memiliki potensi untuk meningkatkan literasi sains dan meningkatkan kesiapan peserta didik untuk menghadapi bencana alam, terutama daerah rawan seperti Indonesia. Penelitian ini bertujuan untuk mengkaji efektivitas pendekatan STEM dengan pemanfaatan media NASA Space Place pada materi struktur bumi. Metode penelitian ini menggunakan studi literatur dengan pendekatan pedoman PRISMA, mencakup pencarian dan analisis artikel melalui database Scopus dan Science Direct yang relevan dengan kata kunci NASA, STEM, dan pembelajaran. Hasil kajian menunjukkan bahwa pada integrasi media NASA Space Place dalam pembelajaran materi struktur bumi dengan pendekatan STEM pada materi struktur bumi mampu meningkatkan minat belajar, pemahaman konsep, dan kemampuan berpikir kritis bagi peserta didik. Kata kunci: NASA Space Place, Pembelajaran, STEM, Struktur Bumi ABSTRACT Utilization of NASA SPACE PLACE Media in STEM Learning on Earth Structure Material: Literature Study. The application of STEM-oriented learning that utilizes NASA Space Place Media has the potential to improve science literacy and increase students' readiness to face natural disasters, especially in vulnerable areas such as Indonesia. This research aims to examine the effectiveness of the STEM approach with the utilization of NASA Space Place Media on earth structure material. This research method uses a literature study with the PRISMA guideline approach, including searching and analyzing articles through the relevant Scopus and Science Direct databases with the keywords NASA, STEM, and learning. The results of the study show that the integration of NASA Space Place Media in learning earth structure material with a STEM approach to earth structure material can increase learning interest, concept understanding, and critical thinking skills for students. Keywords: NASA Space Place, Learning, STEM, Earth Structure

Relationship Between Critical Thinking and Scientific Argumentation in Science Learning An Nuril Maulida Fauziah; Wasis; Ahmad Fauzi Hendratmoko; Mahdiannur, M. A.; Mochammad Zumar Firdaus Ermawan; Suwandi, E.; Ratri, Safitri Yosita
Jurnal Pendidikan IPA Indonesia Vol. 13 No. 2 (2024): June 2024
Publisher : Universitas Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/pwqxcp96

This study aims to examine the relationship between critical thinking and scientific argumentation in the context of science learning. This research method is a systematic literature review of articles published between 2012 and 2022 and indexed in Scopus at least Quartile 2 (Q2), so the quality of the articles is high. This research found 17,800 articles in the search results for related articles published in the last decade, but only 11 met the criteria. Findings from the literature review indicate an interdependent relationship between critical thinking and scientific argumentation, and both make significant contributions to science learning. Other information obtained from this research is that there are several methods for training and developing critical thinking and scientific argumentation in science learning: argument maps and concept maps, essential reading activities, argumentative texts or discourse, discussion activities, analytical questions, learning technology, and specific learning strategies. Based on the research results, it can be concluded that critical thinking and scientific argumentation are interconnected skills and contribute to learning. The complexity of the relationship between critical thinking and scientific argumentation in science learning can encourage deeper learning and understanding of concepts.

Increasing Pre-service Science Teacher Creativity Through STEM Problem-Solving Nurita, Tutut; Yuliati, Lia; Mahdiannur, Muhamad Arif; Ilhami, Fasih Bintang; Fauziah, An Nuril Maulida; Hendratmoko, Ahmad Fauzi; Puspitarini, Sapti
Jurnal Penelitian Pendidikan IPA Vol 10 No 1 (2024): January
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v10i1.6335

Creativity is one of the skills that must be possessed in the 21st century, especially by pre-service science teachers. However, in fact, the quality of pre-service science teacher creativity still needs to be improved. Therefore, this research aims to increase the creativity of pre-service science teachers through STEM Problem-Solving. This research uses a one group pretest posttest design. The sample in this study was 53 pre-service science teachers in the science education department at Universitas Negeri Surabaya. Increasing the quality of pre-service science teacher creativity is measured based on pretest and posttest scores. The pretest and posttest scores were then analyzed using N-Change. Apart from that, it was also analyzed statistically using paired t-test. This is used to ensure that STEM Problem-Solving really has an effect on increasing the creativity of pre-service science teachers. The research results show that STEM Problem-Solving is proven to significantly increase the creativity of pre-service science teachers. The category of increasing pre-service science teacher creativity is in the medium category. The majority of pre-service science teachers' final creative quality is in the creative category.

Effectiveness of a Project Based Learning Model Integrated With Sasambo Local Wisdom to Enhance Students' Scientific Attitudes Rahman*, Nanang; Liswijaya, Liswijaya; Hendratmoko, Ahmad Fauzi; Nagy, Emese K.; Mashwani, Hazrat Usman
Jurnal IPA & Pembelajaran IPA Vol 9, No 1 (2025): MARCH 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jipi.v9i1.42626

The primary issue in higher education is the low level of scientific attitudes among students, which include curiosity, open-mindedness, and environmental sensitivity. One approach to addressing this problem is through the project based learning (PjBL) model integrated with local wisdom. This study aims to measure the effectiveness of the PjBL integrated sasambo local wisdom model, which incorporates values such as cooperation, respect for nature, and social harmony, in enhancing students' scientific attitudes. The study employed a quasi-experimental design with a one-group pretest-posttest approach. The research subjects consisted of 70 students from Muhammadiyah Mataram University and Hamzanwadi University. Data were collected using a scientific attitude questionnaire with five indicators: curious attitude, respect for facts, an open-minded attitude, perseverance, and sensitivity toward the environment. The data were analyzed using normalized N-gain to measure the improvement in scientific attitudes and inferential statistical tests to assess the significance of the results. The findings reveal that the sasambo integrated PjBL model effectively improves students' scientific attitudes. The average N-gain was categorized as high (0.81 and 0.83) at both universities. Among the indicators, sensitivity toward the environment showed the greatest improvement, while respect for facts showed moderate improvement. Statistical tests indicated a significant difference between pretest and posttest scores, with consistent results across both universities. In conclusion, the the PjBL integrated sasambo local wisdom model significantly and consistently enhances students' scientific attitudes. This model holds potential as a culturally relevant innovative strategy for improving the quality of science education and fostering students' character development

Implementasi Model Team Game Tournament Berbasis Monopoli Interaktif untuk Meningkatkan Pemahaman Siswa SMP Tentang Mitigasi Bencana Atmosfer dan Polusi Udara Lutfiyanti, Rosa Azzahro; Rahmawati, Dewi Syamsia; Az-zahro, Adhelia Carissa; Hendratmoko, Ahmad Fauzi; Sudibyo, Elok; Nurita, Tutut
Jurnal Pendidikan Ilmu Pengetahuan Alam (JP-IPA) Vol 6, No 2 (2025): November 2025
Publisher : STKIP HARAPAN BIMA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56842/jp-ipa.v6i2.543

Understanding atmospheric disaster mitigation is essential for students from an early age, especially since Indonesia is highly vulnerable to extreme weather events such as storms and heavy rainfall. Nevertheless, this topic is often perceived as less engaging and tends to lack student participation. This study investigates the effectiveness of the Teams Games Tournament (TGT) model integrated with Interactive Monopoly in enhancing students’ understanding of atmospheric disaster mitigation and air pollution. The research adopted a one-group pretest-posttest design involving 30 eighth-grade students. Data were analyzed using the N-Gain test to measure improvement in learning outcomes and the Wilcoxon test to determine the significance of differences between pretest and posttest scores. The findings revealed an increase in the average score from 78.83 (pretest) to 98.5 (posttest). The mean N-Gain score reached 0.94, which falls into the high category. The Wilcoxon test produced a significance value of 0.000 (p 0.05), confirming a significant difference. During the learning activities, students showed active involvement, effective collaboration, and greater motivation. The integration of TGT with Interactive Monopoly provides an innovative and enjoyable learning approach, statistically proven to improve learning outcomes, engagement, and motivation in contextual science education.

Argument-Driven Inquiry Assisted by Lumi Education: Improving Students' Scientific Argumentation Skills on Static Electricity Salsabila, Putri Avianita; Hendratmoko, Ahmad Fauzi; Roqobih, Fikky Dian
Jurnal Penelitian dan Pengkajian Ilmu Pendidikan: e-Saintika Vol. 9 No. 3 (2025): November
Publisher : Lembaga Penelitian dan Pemberdayaan Masyarakat (LITPAM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/70dd6197

The aim of this study is to evaluate the effectiveness of the Argument-Driven Inquiry (ADI) learning strategy, supported by the Lumi Education platform, in enhancing the scientific argumentation skills of students related to static electricity. A quasi-experimental approach, employing a non-equivalent control group, was adopted in this study, including two ninth-grade classes in a junior high school as participants. The participants were exposed to instruction utilizing either the ADI strategy and the support of the Lumi Education website or standard instruction as a control group. The strategies developed included a scientific argumentation skills test, designed as a claim, evidence, and warrant procedure, as well as a questionnaire administered among students. The data gathered were statistically processed by comparing pre-test and post-test results, calculating the normalized gains, as well as a description analysis approach among the students' written responses. The results show that, compared to a low category average normalization gain of 0.18 among the control class, a significantly high average value, 0.70, was established by the experimental class, signifying a statistically significant difference between the two categories, yielding a significance at a probability value less than 0.001. The results among the experimental class developed a Cohen's value, or the standardized effect size, estimated as 0.53, signifying a medium effect, while among the control class, an estimated 0.11, signifying a small effect, was recognized. Students said they liked the learning experience and thought it was more interesting, dynamic, and simpler to comprehend when they worked together on real-world tasks. However, some still encountered difficulties with conceptual comprehension and problem-solving. These findings imply that integrating ADI with digital scaffolding, such as Lumi Education, can effectively strengthen scientific argumentation skills while promoting active and reflective learning.

Argument-Driven Inquiry Assisted by Lumi Education: Improving Students' Scientific Argumentation Skills on Static Electricity Salsabila, Putri Avianita; Hendratmoko, Ahmad Fauzi; Roqobih, Fikky Dian
Jurnal Penelitian dan Pengkajian Ilmu Pendidikan: e-Saintika Vol. 9 No. 3 (2025): November
Publisher : Lembaga Penelitian dan Pemberdayaan Masyarakat (LITPAM)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/70dd6197

The aim of this study is to evaluate the effectiveness of the Argument-Driven Inquiry (ADI) learning strategy, supported by the Lumi Education platform, in enhancing the scientific argumentation skills of students related to static electricity. A quasi-experimental approach, employing a non-equivalent control group, was adopted in this study, including two ninth-grade classes in a junior high school as participants. The participants were exposed to instruction utilizing either the ADI strategy and the support of the Lumi Education website or standard instruction as a control group. The strategies developed included a scientific argumentation skills test, designed as a claim, evidence, and warrant procedure, as well as a questionnaire administered among students. The data gathered were statistically processed by comparing pre-test and post-test results, calculating the normalized gains, as well as a description analysis approach among the students' written responses. The results show that, compared to a low category average normalization gain of 0.18 among the control class, a significantly high average value, 0.70, was established by the experimental class, signifying a statistically significant difference between the two categories, yielding a significance at a probability value less than 0.001. The results among the experimental class developed a Cohen's value, or the standardized effect size, estimated as 0.53, signifying a medium effect, while among the control class, an estimated 0.11, signifying a small effect, was recognized. Students said they liked the learning experience and thought it was more interesting, dynamic, and simpler to comprehend when they worked together on real-world tasks. However, some still encountered difficulties with conceptual comprehension and problem-solving. These findings imply that integrating ADI with digital scaffolding, such as Lumi Education, can effectively strengthen scientific argumentation skills while promoting active and reflective learning.

IMPLEMENTASI MODEL KOOPERATIF TGT MELALUI GAME KNOWLEDGE DOMINION UNTUK MELATIH KETERAMPILAN KOLABORASI PESERTA DIDIK Araminta, Alzena Agatha; Hendratmoko, Ahmad Fauzi
SCIENCE : Jurnal Inovasi Pendidikan Matematika dan IPA Vol. 6 No. 2 (2026)
Publisher : Pusat Pengembangan Pendidikan dan Penelitian Indonesia (P4I)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.51878/science.v6i2.9710

Collaborative skills are an important 21st-century competency that needs to be developed in science education. However, the collaborative skills of junior high school students are still relatively low, as indicated by a lack of active participation, group responsibility, and mutual respect. Therefore, innovative learning methods that can actively engage students in collaboration are needed. This study aims to describe students' collaboration skills after implementing the Knowledge Dominion Game based on the TGT cooperative learning model, the implementation of learning, and students' responses to the implementation of this learning. This study used a pre-experimental one-shot case study involving 28 seventh-grade students. This study collected data using collaboration skill observation techniques, learning implementation observation sheets, and student response questionnaires. Collaboration skills were analyzed based on four indicators, namely working productively, showing respect, compromising in a team, and sharing responsibilities. The results of the study show that (1) TGT cooperative learning obtained a mode of 4 and was classified as very good (2) student collaboration skills were in the good to very good category after the implementation of the TGT cooperative model-based Game Knowledge Dominion, and (3) students responded positively. ABSTRAK Keterampilan kolaborasi merupakan kompetensi penting abad ke-21 yang perlu dikembangkan dalam pembelajaran Ilmu Pengetahuan Alam (IPA). Namun, keterampilan kolaborasi peserta didik SMP masih tergolong rendah, ditandai dengan kurangnya partisipasi aktif, tanggung jawab kelompok, serta sikap saling menghargai. Oleh karena itu, diperlukan inovasi pembelajaran yang mampu melibatkan peserta didik secara aktif dan kolaboratif. Penelitian ini bertujuan untuk mendeskripsikan keterampilan kolaborasi peserta didik setelah diterapkan Game Knowledge Dominion berbasis model pembelajaran kooperatif TGT, keterlaksanaan pembelajaran, serta respons peserta didik terhadap penerapan pembelajaran tersebut. Penelitian ini menggunakan pre-experimental dengan one shot case study dengan melibatkan 28 peserta didik kelas VII. Penelitian ini mengumpulkan data menggunakan teknik bservasi keterampilan kolaborasi, lembar observasi keterlaksanaan pembelajaran, dan angket respons peserta didik. Keterampilan kolaborasi dianalisis berdasarkan empat indikator, yaitu bekerja secara produktif, menunjukkan rasa hormat, berkompromi dalam tim, dan berbagi tanggung jawab. Hasil penelitian menunjukkan bahwa (1) pembelajaran Kooperatif TGT mendapatkan modus sebanyak 4 dan tergolong dalam kategori sangat baik (2) terdapat bahwa keterampilan kolaborasi peserta didik berada pada kategori baik hingga sangat baik setelah penerapan Game Knowledge Dominion berbasis model kooperatif TGT, dan (3) peserta didik merespons positif terhadap pembelajaran Kooperatif TGT dengan persentase 88,39% yang termasuk dalam kriteria sangat tinggi. Hasil studi menunjukkan bahwa penerapan Game Knowledge Dominion berbasis model pembelajaran kooperatif TGT efektif untuk melatih keterampilan kolaborasi peserta didik pada pembelajaran IPA.

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