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Identification of Lecturer Difficulties in Implementing of Blended Learning in the Covid-19 era Herliana, Fitria; Halim, Abdul; Farhan, Ahmad; Kasli, Elisa
Asian Journal of Science Education Vol 2, No 2: October, 2020
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/ajse.v2i2.18274

Learning in the Covid-19 era requires lecturers and students not to study in the same place. This condition is a new challenge for lecturers and students to continue implementing effective learning using a suitable approach that is blended learning. This research is a preliminary study to determine the difficulties of lecturers in implementing blended learning at Department of Physics Education, FKIP Universitas Syiah Kuala. The method used in this research is a survey using a questionnaire containing 30 statements. The indicators measured in this study were 9 (nine) indicators from 2 aspects, namely the readiness and skills of lecturers in implementing blended learning in the Covid-19 era. The questionnaire was distributed to 15 lecturers in the Department of Physics Education, and the results of the responses obtained were analyzed using descriptive statistics. The results of the analysis show that 29.23% of lecturers are not ready to apply the blended learning approach because 53.85% of lecturers rarely access the internet and learning platforms to facilitate lecture activities, so they are not used to using it. 44% of lecturers are not yet skilled in using learning platforms which are shown by 46.16% of lecturers having difficulty changing the general appearance of the virtual class, and 46.15% of lecturers have difficulty interacting using the learning platform. These difficulties are the obstacles for lecturers to apply the blended learning approach in lecture activities, so it is necessary to immediately find solutions to help the lecturer difficulties so that lectures in the Covid-19 era continue to run effectively like previous lectures.Keywords: Blended Learning, Covid-19, Lecturer Difficulties, Obstacles

Effectiveness of Problem Posing Model on Ability of High School Physics Teachers to Solve HOTS-Based Problems Soewarno, Soewarno; Herliana, Fitria; Musdar, Musdar
Asian Journal of Science Education Vol 2, No 1: April, 2020
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/ajse.v2i1.16427

The importance of the teacher's role in mastering HOTS-based questions greatly influences the learning outcomes achieved by students. So we need an appropriate learning model to guide students to more easily solve HOTS-based problems. This study aims to determine the effectiveness of the Problem Posing model in improving the ability of high school physics teachers to solve HOTS-based problems. The method used in this study was quantitative research that was quasi-experimental with the design of One Group Pretest-Postest Design. This design consists of one group chosen randomly and it was given a pre-test before being given treatment. That group was given a treatment of applying the Problem Posing model and after that, the group was given a post-test to find out whether there was an effect of applying the Problem Posing model to the ability of physics teachers in solving HOTS-based problems. The study population included all physics teachers in Bener Meriah, Central Aceh. The research sample was taken using random sampling techniques. Data were collected from the results of the pretest and posttest done by the physics teacher, namely the Friction Force HOTS-Based Problems. The data is analyzed using two-tailed t-test formula. The results of data analysis obtained tcount ttable was 2.79 2.06 which means Ha is accepted and it was obtained an n-gain score of 64.69. Based on these results it could be concluded that the Problem Posing model is quite effectively used to improve the ability of teachers to solve HOTS-based problems.

The Effect of Web-based Inquiry Physics Problems on High School Students' Physics Learning Outcomes Herliana, Fitria; Mardila, Rini; Mahzum, Elmi; Zainuddin, Zainuddin; Wahyuni, Agus; Elisa, Elisa; Muliyati, Dewi
Jurnal Pendidikan Fisika Vol 13, No 2 (2025): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v13i2.17788

Physics learning in high schools often faces challenges due to students' low conceptual understanding of abstract topics like sound waves. To address this challenge, this study investigates the effectiveness of Web-based Inquiry Physics Problems (WIPPer), an innovative learning platform that incorporates a problem-based learning approach within a blended learning framework. Using a pre-experimental one-group pretest-posttest design, the research was conducted on 20 eleventh-grade students at State Senior High School 2 Kuta Baro. Data were collected through a learning outcome test comprising 10 multiple-choice items (cognitive levels C1–C4), teacher and student response questionnaires, and observation sheets to monitor engagement throughout the WIPPer implementation. The results showed a medium average N-gain of 0.5116, with 70% of students achieving medium to high improvement categories. Observational analysis demonstrated 89% effectiveness across all learning phases. Teacher responses rated WIPPer as excellent (media: 93.33%, material and evaluation: 100%), while student responses were also highly favorable (media: 86.16%, material: 93.4%, evaluation: 90%). Cross-tabulation analysis revealed a strong correlation between student engagement and achievement, particularly in analytical activities. Students with high engagement demonstrated better ability in answering complex concept application questions (75.76%) compared to students with low engagement (16.67%). The novelty of this research lies in the integration of gradual assessment, virtual laboratory simulations, and adaptive feedback within a problem-oriented digital platform. This research concludes that WIPPer is a feasible and effective tool that enhances learning outcomes by fostering engagement and supporting independent learning. This research contributes to physics education by presenting WIPPer as a feasible and effective model that aligns with digital learning trends and supports the development of adaptive, student-centered instructional approaches.

Augmented Reality Media on Students Interest in Learning at SMP Negeri 2 Kuta Baro Elisa*, Elisa; Sari, Putri Indah; Mahzum, Elmi; Herliana, Fitria; Saputri, Mawarni; Kaffi, Muhammad Nadiul
Jurnal Pendidikan Sains Indonesia Vol 13, No 3 (2025): JULY 2025
Publisher : Universitas Syiah Kuala

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24815/jpsi.v13i3.44773

The use of learning media is very important, but in schools there are still limitations to learning media that affect student interest and result in low student interest. This study aims to see the effect of the use of augmented reality (AR) media on student interest in learning at SMP Negeri 2 Kuta Baro. This research is included in the type of quasi-experimental research with pretest-postest control group design. The research sample was taken using purposive sampling technique, which resulted in two groups, namely 22 students from class VIII-A as the experimental group and 22 students from class VIII-B as the control group. Learning in the experimental class, using AR learning media. While the control class, using image media. Data collection uses a questionnaire instrument of student interest in learning that has been validated by experts and given after the learning process is complete. Data were collected using observation sheets and questionnaires of learning interest. Data analysis was carried out using the t statistical test with a significant level of 0.05 and the results of the study obtained the value of t count (13.817) t table (2.018). Based on these results, it can be concluded that AR learning media influences the learning interest of students of SMP Negeri 2 Kuta Baro

The Effect of Web-based Inquiry Physics Problems on High School Students' Physics Learning Outcomes Herliana, Fitria; Mardila, Rini; Mahzum, Elmi; Zainuddin, Zainuddin; Wahyuni, Agus; Elisa, Elisa; Muliyati, Dewi
Jurnal Pendidikan Fisika Vol. 13 No. 2 (2025): PENDIDIKAN FISIKA
Publisher : Universitas Muhammadiyah Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26618/jpf.v13i2.17788

Physics learning in high schools often faces challenges due to students' low conceptual understanding of abstract topics like sound waves. To address this challenge, this study investigates the effectiveness of Web-based Inquiry Physics Problems (WIPPer), an innovative learning platform that incorporates a problem-based learning approach within a blended learning framework. Using a pre-experimental one-group pretest-posttest design, the research was conducted on 20 eleventh-grade students at State Senior High School 2 Kuta Baro. Data were collected through a learning outcome test comprising 10 multiple-choice items (cognitive levels C1–C4), teacher and student response questionnaires, and observation sheets to monitor engagement throughout the WIPPer implementation. The results showed a medium average N-gain of 0.5116, with 70% of students achieving medium to high improvement categories. Observational analysis demonstrated 89% effectiveness across all learning phases. Teacher responses rated WIPPer as excellent (media: 93.33%, material and evaluation: 100%), while student responses were also highly favorable (media: 86.16%, material: 93.4%, evaluation: 90%). Cross-tabulation analysis revealed a strong correlation between student engagement and achievement, particularly in analytical activities. Students with high engagement demonstrated better ability in answering complex concept application questions (75.76%) compared to students with low engagement (16.67%). The novelty of this research lies in the integration of gradual assessment, virtual laboratory simulations, and adaptive feedback within a problem-oriented digital platform. This research concludes that WIPPer is a feasible and effective tool that enhances learning outcomes by fostering engagement and supporting independent learning. This research contributes to physics education by presenting WIPPer as a feasible and effective model that aligns with digital learning trends and supports the development of adaptive, student-centered instructional approaches.

Development of Problem Based Learning Teaching Modules Based on Blended Learning in the Implementation of the Independent Curriculum Maulisa, Asra; Herliana, Fitria; Mahzum, Elmi; Elisa, Elisa; Farhan, Ahmad; Nurulwati, Nurulwati
Current STEAM and Education Research Vol. 2 No. 2 (2024): Current STEAM and Education Research, Volume 2 Issue 2, August 2024
Publisher : MJI Publisher by PT Mitra Jurnal Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58797/cser.020201

The implementation of the independent curriculum in the education system requires teachers to develop teaching modules while conducting instructional activities in the right direction. This research aims to develop a problem-based learning teaching module based on blended learning that is suitable for implementation within the context of the independent curriculum. The type of this research is Research and Development using the ADDIE development model, which stands for analysis, design, development, implementation, and evaluation. In this research, the implementation is limited to the development stage only. The suitability of the teaching module is measured through the validation results of the teaching module, as well as the responses from teachers and students. The subjects of this research are physics teachers and 11th-grade students at SMA Methodist Banda Aceh. Data collection techniques involve the validation questionnaire for the teaching module by experts and practitioners, as well as questionnaires to gather responses from teachers and students. The research data is then analyzed using quantitative descriptive methods with percentage techniques. The overall validation results of the teaching module by content experts indicate a score of 99.7%, construction experts at 91.5%, and practitioners at 90%, all falling under the category of highly valid. Additionally, the results from the teacher response questionnaire show a score of 90%, and the student response questionnaire indicates a score of 86%, both falling into the category of very good. Based on the research findings, it can be concluded that the development of a problem-based learning teaching module based on blended learning is suitable for implementation within the framework of the independent curriculum.

The Effect of Blended Learning-Based Problem-Based Learning on the Critical Thinking Ability of High School Students in Physics Subjects Lasmiati, Yuyun; Herliana, Fitria; Syukri, Muhammad; Musdar, Musdar; Wati, Nurul; Hamid, Abdul
Current STEAM and Education Research Vol. 2 No. 3 (2024): Current STEAM and Education Research, Volume 2 Issue 3, December 2024
Publisher : MJI Publisher by PT Mitra Jurnal Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58797/cser.020301

Based on the demands of 21st century ability, it is hoped that students can master critical thinking skills, especially in physics learning, considering that physics is one of the parts of science learning that cannot be separated from the ability to think critically in solving phenomena in the universe. This research is a type of quasi-experimental research that aims to see the influence of the Blended Learning-based Problem Based Learning model on students' critical thinking skills. The approach used is a quantitative approach. The research population is students of class XI MIPA SMA Negeri Unggul Subulussalam with class XI MIPA 3 as the experimental class and class XI MIPA 4 as the control class. The instruments used are test instruments, questionnaire instruments, observation instruments, and interview instruments. Based on the results of the t-test, a tcount value of 9.1493 was obtained with a ttable of 1.6735 which means that there is a significant difference between the experimental class taught using the PBL Learning model based on blended learning and the control class taught using the PBL learning model only. From the results of data analysis and discussion, it can be concluded that the blended learning based PBL learning model is one of the learning models that is able to improve the critical thinking skills of students at SMA Negeri Unggul Subulussalam

Correlation Analysis of Misconceptions on Motivation, Learning Outcomes, and Critical Thinking Skills in Physics Learning Afni, Nurul; Halim, Abdul; Evendi, Evendi; Herliana, Fitria; Halim, Lilia
Jurnal Pendidikan Fisika Indonesia Vol 20, No 1 (2024)
Publisher : Department of Physics, Faculty of Mathematics and Natural Sciences

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15294/jpfi.v20i1.46453

Several previous studies have shown that misconceptions are related to student achievement or learning outcomes and several latent variables. Therefore, the research aims to determine the relationship between misconceptions, motivation, learning outcomes, and critical thinking skills in learning physics on Newton's law material. The approach used in this study is a quantitative descriptive approach with survey methods and correlational techniques. The subjects of this study were students of grade XI high school. The data collection instruments used in this study were multiple-choice four-level diagnostic tests, descriptive test questions, and questionnaires. The results obtained from regression analysis show that the correlation is very weak and insignificant in the positive direction between misconceptions and motivation. In contrast, the correlation is robust and significant in the positive direction between misconceptions and learning outcomes and between misconceptions and critical thinking skills. That correlation is weak and important in a negative (opposite) direction. Based on this study, it can be concluded that the relationship between misconceptions with learning outcomes and critical thinking skills significantly correlates with misconceptions. Motivation does not significantly correlate with misconceptions in learning physics on Newton's law material at SMA Negeri 1 Idi Rayeuk, Aceh, Indonesia.

Differentiated Instruction through Adaptive Learning Platform in Science Education: A Systematic Literature Review Herliana, Fitria; Hafinda, Tengku; Firmayanto, Rudi
Jurnal Pendidikan MIPA Vol 25, No 2 (2024): Jurnal Pendidikan MIPA
Publisher : FKIP Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar

Recent technological advancements have led to various educational innovations, including adaptive Learning, which customizes content and instructional methods to meet the diverse needs and abilities of individual students. Several empirical studies have utilized adaptive learning platforms to support differentiated Learning in science. However, to date, there has yet to be a comprehensive review of the findings in this area. This study aims to explore research trends related to differentiated Instruction through adaptive learning platforms in science education, as documented in Scopus-indexed journal articles published between 2019 and 2024. The research follows PRISMA guidelines, employing the Publish or Perish application for the search system, with data sourced from SCOPUS. The search yielded 368 articles, and screening based on specific inclusion and exclusion criteria resulted in 23 papers that were subsequently analyzed. This study highlights various adaptive technology methods used in science education, emphasizing Learning Management Systems (LMS) and Artificial Intelligence (AI). LMS emerges as the most frequently utilized, followed by AI and assessment platforms. Crucial factors for successful implementation include real-time feedback and accessibility to technology. Although these platforms improve learning outcomes, issues regarding student engagement and satisfaction persist. Educational institutions should assess their technological infrastructure and provide training for educators to leverage new features effectively. Additionally, developers should focus on enhancing personalization options, while further research is necessary to address students' emotional needs better and enhance their motivation. Keywords: adaptive learning, differentiated instruction, science education, teaching, systematic literature review.DOI: http://dx.doi.org/10.23960/jpmipa/v25i2.pp914-931

Pengaruh Penggunaan Lb Virtual berbasis PhET Simulation terhadap Kemampuan Berpikir Analitis Siswa Mahzum, Elmi; Halim, Abdul; Usfia, Nazilatul; Herliana, Fitria
Jurnal Penelitian Pendidikan IPA Vol 10 No 5 (2024): May
Publisher : Postgraduate, University of Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jppipa.v10i5.4791

The use of media in the learning process has a very important role. When there are limitations in media use, especially in accessing real laboratories, it can cause a decrease in students' analytical thinking abilities. This research aims to identify the impact of using PhET simulation on students' analytical thinking abilities. This research is included in the type of quasi-experimental research, a quantitative approach with a pretest-posttest control group design. The research sample was taken using a purposive sampling technique, which resulted in two groups, namely 25 students from class XI-MIA 1 as the experimental group, and 25 students from class XI-MIA 2 as the control group. Data was collected using test techniques, with pretest-posttest value data. Data analysis was carried out using the independent sample t-test, and previously prerequisite tests were carried out in the form of normality and homogeneity tests. The results of hypothesis testing show that the value is 0.04 < 0.05, which means the research hypothesis is acceptable. From this research it can be concluded that the use of PhET Simulation has a significant influence on students' analytical thinking abilities.

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