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All Journal Al-Hijr: Journal of Adulearn World Journal International of Lingua and Technology Journal International Inspire Education Technology (JIIET) World Psychology Makara Journal of Technology Journal Markcount Finance Journal International Dakwah and Communication Lingeduca: Journal of Language and Education Studies International Journal of Educational Narratives Rechtsnormen Journal of Law Sharia Oikonomia Law Journal Journal Neosantara Hybrid Learning Journal of Social Science Utilizing Technology Journal Emerging Technologies in Education Journal of World Future Medicine, Health and Nursing Journal of Social Science Utilizing Technology Semantik: Journal of Social, Media, Communication, and Journalism Journal of Computer Science Advancements Journal of Moeslim Research Technik Journal of Selvicoltura Asean International Journal of Educatio Elementaria and Psychologia Journal of Tecnologia Quantica Techno Agriculturae Studium of Research Journal of Social Entrepreneurship and Creative Technology
Yuanyuan Wang, Yuanyuan
Huaiyin Institute of Technology
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Manipulative Learning Media as an Effort to Improve Understanding of Tajweed Learning Sa’adah, Nur; Tabroni, Imam; Wang, Yuanyuan; Zou, Guijiao
Journal of Computer Science Advancements Vol. 1 No. 2 (2023)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55849/jsca.v1i2.478

Abstract

This class action research aims to improve students' understanding of tajweed learning through the application of manaipulative media in class IV MDTA Al-Mubarokah. The data needed in this study using Cycle I and II techniques. The results showed that the level of understanding of students towards learning tajweed through the application of manipulative media had reached 80% in cycle I and 90% in Cycle II. With the application of manipulative learning media, of course, to make it easier for students to be able to think in understanding the concept of tajweed learning conveyed by the teacher. Thus, teachers must be creative and innovative in learning, how teachers can create interesting and fun learning methods and media to motivate students to learn tajweed.
Index Card Match Learning Method to Improve Learning Concentration Raihan, Paqih; Tabroni, Imam; Wang, Yuanyuan; Zou, Guijiao
Journal of Computer Science Advancements Vol. 1 No. 2 (2023)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55849/jsca.v1i2.480

Abstract

This study was motivated by the results of observations of researchers in class XI MA Daarul Ma'arif Pasawahan students in the PAI learning process in class. From the observation, it is known that there are still many students who do not pay attention to the teacher's explanation when delivering material in class. The concentration of students' learning is low, namely 62.5% of 29 people with a minimum completeness criteria of 75. Classical completeness is declared incomplete. This study aims to determine that the application of the index card match learning method can increase the concentration of PAI learning in class XI MA Daarul Ma'arif Pasawahan. This research was conducted in class XI MA Daarul Ma'arif Pasawahan. This research was conducted from February 2023 to May 2023. The subjects of this study were grade XI students with a total of 29 students consisting of 19 female students 10 male students. The form of this assessment is a class action assessment (PTK). The results showed that the application of the index card match method can increase the concentration of PAI learning in class XI students of MA Daarul Ma'arif Pasawahan in 2022/2023. The concentration of student learning before PTK was 66.7 with a category of less and classical completeness was 62.5% with an incomplete category. Learning concentration of cycle I meeting 1 was 75.8 with sufficient category and classical completeness was 87.5% with complete category. Learning concentration of cycle I meeting 2 was 79.2 with sufficient category and classical completeness was 91.7% with complete category. Cycle II learning concentration with meeting 3 was 82.1 with good category and classical completeness was 95.8% with complete category. Learning concentration of cycle II with meeting 4 was 87.9 with good category and classical completeness was 100% with complete category.  
Use of Virtual Reality Technology for Learning Mechanical Skills Susilo, Anto; Barra, Ling; Wang, Yuanyuan
Journal of Computer Science Advancements Vol. 2 No. 5 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/jsca.v2i5.1323

Abstract

Background: With the technological landscape in education shifting rapidly, Virtual Reality presents a novel approach to practical skill development, particularly in mechanical engineering. This study explores the potential of Virtual Reality to enhance the learning of specific mechanical skills, such as Mechanical Skills, which are crucial in the increasingly automated industry. The main objective of this research was to assess the effectiveness of Virtual Reality technology in teaching mechanical skills compared to traditional hands-on methods. The study employed a quasi-experimental design involving 100 mechanical engineering students from two universities. Using conventional training methods, which included [insert specific methods], participants were randomly assigned to a VIRTUAL REALITY training group and a control group. Both groups were tested on their ability to perform specific mechanical tasks, such as [insert specific tasks], before and after the training sessions. The Virtual Reality group demonstrated a statistically significant improvement in performance accuracy and speed compared to the control group. Post-study surveys also indicated higher satisfaction and engagement levels among the Virtual Reality group. The findings suggest that Virtual Reality technology can significantly enhance the learning of mechanical skills, offering a more effective and engaging approach than traditional methods. The potential of Virtual Reality to revolutionize mechanical engineering education is inspiring, offering a new and exciting way to teach and acquire practical skills.
Communication during the Prophet Muhammad's Time: Media, Methods, and its Relevance in the Modern Era Nofrianti, Mami; Avinash, Buschhaus; Wang, Yuanyuan
Semantik: Journal of Social, Media, Communication, and Journalism Vol 3 No 1 (2025): SEMANTIK (Journal of Social, Media, Communication, and Journalism)
Publisher : Universitas Islam Negeri Mahmud Yunus Batusangkar

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31958/semantik.v3i1.15622

Abstract

This article discusses the communication practices implemented by Prophet Muhammad (SAW), focusing on the media and methods used in spreading the message of Islam. Through an analysis of historical context, the article illustrates how the Prophet optimized various communication channels, including oral communication, letters, and direct interaction, to reach diverse communities. Additionally, the study highlights the relevance of the Prophet's communication principles in the modern context, where information technology and social media have become primary tools for disseminating information. By examining the values of effective, honest, and inclusive communication taught by the Prophet, the article offers a fresh perspective on how contemporary society can leverage these approaches to enhance communication in various aspects of life.
Environmental Engineering Innovation to Tackle Water Crisis in Modern Era Wang, Yuanyuan; Xu, Shanshan; Kathryn, Morse
Journal of Moeslim Research Technik Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

Water crisis has become one of the major challenges of the modern era, with increasing demand for clean water and decreasing availability of quality water resources. In this context, environmental engineering innovations are crucial to effectively address this challenge. This research aims to explore various environmental engineering innovations that can be used to address the water crisis in the modern era. The main focus of this research is to identify technical solutions that can be applied to improve water management and increase the availability of clean water. The research method used involved an in-depth literature survey to gather information on recent environmental engineering innovations in addressing the water crisis. In addition, the research also involved a comparative analysis of various solutions that have been implemented in different regions around the world. The results show that there are various environmental engineering innovations that can be effective in addressing the water crisis in the modern era, including water treatment technologies, sustainable water resource management, and the use of renewable energy in water treatment systems. The conclusion of this research is that environmental engineering innovations play an important role in addressing the water crisis in the modern era. By implementing these innovative solutions, it is expected to achieve water quality restoration and sustainable increase in clean water availability.
Transportation Engineering Revolution: Towards Sustainable and Intelligent Mobility Jixiong, Cai; Wang, Yuanyuan; Zou, Guijiao
Journal of Moeslim Research Technik Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

The revolution in the field of transportation engineering has been a major highlight in efforts towards achieving more sustainable and intelligent mobility. This development is triggered by increasing awareness of the negative impacts of traffic congestion and air pollution on society’s quality of life and the environment. This research aims to investigate and identify innovative solutions to address existing transportation problems, focusing on developing more efficient, environmentally friendly, and sustainable transportation systems. The approach used in this research is a comprehensive analysis of recent developments in transportation technology and case studies to evaluate the implementation of proposed solutions. Based on the analysis, the research results show that the development of transportation technology based on renewable energy, the application of artificial intelligence in traffic management, and the promotion of efficient public transportation are critical steps in achieving sustainable and intelligent mobility. The conclusion of this research emphasizes the importance of adopting innovative solutions in addressing modern transportation challenges. We can build transportation systems that promote more sustainable, efficient, and environmentally friendly mobility by leveraging the latest technology and implementing appropriate policies.
The Precision Agriculture Revolution in Asia: Optimizing Crop Yields with IoT Technology Guilin, Xie; Jiao, Deng; Wang, Yuanyuan; Zou, Guijiao; Jie, Lie
Journal of Selvicoltura Asean Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

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Abstract

Research Background: Agriculture in Asia faces challenges in meeting increasing food needs due to population growth. Conventional farming methods are often less efficient and unsustainable. Precision agricultural technology, especially the Internet of Things (IoT), offers solutions to significantly increase farm productivity and efficiency. Research Objectives: This research aims to explore the potential application of IoT technology in precision agriculture in Asia and analyze its impact on optimizing crop yields. Research Method: This research uses a case study approach by analyzing the implementation of IoT technology in precision agriculture in several Asian countries, such as China, India, and Indonesia. Data was collected through interviews with farmers, agricultural experts, related stakeholders, and field observations. esearch Results: Research results show that the application of IoT technology in precision agriculture in Asia provides significant benefits, including (1) monitoring soil conditions, weather, and plant growth in real-time, (2) optimizing the use of fertilizer and irrigation water, (3) early detection of pests and plant diseases, and (4) increasing the efficiency of agricultural management. In addition, this research found that adopting IoT technology still needs to be improved by factors such as limited infrastructure, initial investment costs, and human resource readiness. Research Conclusion: It can be concluded that IoT technology has great potential in supporting the precision agriculture revolution in Asia. Its implementation can optimize crop yields through more efficient and sustainable agricultural management. However, systematic efforts are needed to overcome challenges in implementing IoT technology in the farming sector, such as infrastructure investment, human resource training, and supporting policies from the government.
Differentiation Strategies in a Multicultural Classroom: A Case Study in an Elementary School Sabir, Arisman; Wang, Yuanyuan; Zou, Guijiao
International Journal of Educatio Elementaria and Psychologia Vol. 1 No. 6 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/ijeep.v1i6.1462

Abstract

The increasing cultural diversity in classrooms presents both challenges and opportunities for educators in delivering effective instruction. Differentiation strategies have emerged as a vital pedagogical approach to address the varying learning needs, cultural backgrounds, and language proficiencies of students in multicultural classrooms. This study explores the use of differentiation strategies in a multicultural elementary school and analyzes their effectiveness in promoting student engagement, academic performance, and social inclusion. A qualitative case study approach was used to gain a deeper understanding of differentiation practices. Data were gathered through classroom observations, semi-structured interviews with teachers, and focus group discussions with students. The findings revealed that differentiation strategies, such as flexible grouping, customized instructional materials, and culturally relevant content, significantly improved student engagement and participation. However, teachers encountered challenges in managing diverse learning needs and adapting instruction to meet the requirements of the standardized curriculum. Despite these challenges, differentiated instruction helped create a more inclusive learning environment, supporting academic growth and social integration among students from various cultural backgrounds.
Recent Quantum Optics Experiments: Uncovering the Mysteries of Compressed Matter Guilin, Xie; Jiao, Deng; Wang, Yuanyuan
Journal of Tecnologia Quantica Vol. 1 No. 1 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/quantica.v1i1.871

Abstract

The physics of compressed matter has become a widely interesting research field mainly due to its relevance in understanding the structure and behavior of matter under extreme pressure conditions. Despite advances made, many mysteries within this field, especially related to the quantum properties of compressed matter, remain unsolved. This research aims to utilize recent quantum optics experiments to unveil the mysteries contained in compressed matter. The primary focus is to understand the quantum properties of matter under high pressure and explore unique behaviors that may emerge in this situation. This research employs a combined approach of quantum optics experiments and theoretical analysis. Experiments are conducted using sophisticated quantum optics equipment to manipulate and examine compressed matter on a quantum scale. Meanwhile, theoretical analysis is used to deepen understanding of the phenomena observed during the experiments. The findings indicate that recent quantum optics experiments have provided new insights into the quantum properties of compressed matter. Some intriguing results include the observation of quantum phase transitions and other quantum effects that may arise under extreme pressure conditions. These results contribute significantly to the understanding of the physics of compressed matter and pave the way for further research in this area. The conclusion of this study is that recent quantum optics experiments have helped unveil the mysteries contained in compressed matter. By integrating experimental and theoretical approaches, this research has deepened the understanding of the quantum properties of matter under high pressure.
Current Research in the Interaction of Light and Matter: Implications for Future Technology Barra, Ling; Wang, Yuanyuan; Zou, Guijiao
Journal of Tecnologia Quantica Vol. 1 No. 2 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/quantica.v1i2.902

Abstract

The interaction between light and matter is a fundamental topic in physics that has broad implications for developing new technologies. With the development of nanotechnology and photonics, a deeper understanding of how light can be affected by and affect matter at the micro and nano scales has become important. This research aims to explore and characterize the interaction of light with matter under various experimental and theoretical conditions to reveal new phenomena that can be exploited in future technologies, such as in the development of quantum computers, advanced sensors, and optical communication systems. This research uses a combination of experimental methods and computer simulation. The experiments were carried out using advanced spectroscopy and microscopy techniques to observe interactions at the atomic and molecular levels. Computer simulations are used to model interactions and predict the behavior of materials under the influence of different light. The results show that by manipulating the structure of materials at the nanoscale, we can significantly change the way materials interact with light. This includes creating meta-material effects not found in nature, which allow the control of light in a highly efficient and selective manner. This study's conclusions confirm that the potential for controlling and exploiting light in technological applications has been substantially expanded through high-precision manipulation of materials at the nanoscale. These findings pave the way for the development of various advanced technological applications that are more efficient and effective, providing a strong foundation for future technological innovations that rely on the interaction of light and matter.
Co-Authors Abdul Latief Arung Arafah Ajwan, Alkadri Arbekti Arman, Shevti Aulia, Salshabila Avinash, Buschhaus Barra, Ling Baso Intang Sappaile, Baso Intang Branka Vucetic, Branka Chandra Halim Cian, Lung Dhini Mufti Didih Muhamad Sudi Elvyadi Rahma, Marsha Elvyadi Endah Fitriasari, Endah Fadillah, Andri Guilin, Xie Gunadi , Syahrul Hapzi Ali Harapan, Edi Hartin Kurniawati Haryanto, Sri Hayati, Amelia Herlina Herlina Hidayatulloh, Asep Ibrahim, Ilyas Ika Rahayu Satyaninrum Ipah Saripah, Ipah Jiao, Deng Jie, Lie Jixiong, Cai Judijanto, Loso Karliena, Yayuk Kathryn, Morse Khaerunnisa, Puja Lewar, Emanuel Suban Bala Lutfi Syafirullah M. Yunus Sudirman Marito, Winanda Masnuna, Masnuna Mihardianto, Mihardianto Mohammad Edy Nurtamam, Mohammad Edy Mutmainah Mutmainah Nada, Anwar Nafsiyah, Fitrotun Nofrianti, Mami Nugraha, Ilah Nursolihah Oktaria, Dhina Setyo Ova Huzaefah R.Eriska Ginalita Dwi Putri Raden Firman Nurbudi Prijambodo Rahmansyah, Diky Raihan, Paqih Rumbouw, Nurlena Sabir, Arisman Sahirin, Rahmat Saputri, Devita Veronika Sarif, Akbar Sa’adah, Nur Selvia , Devi Sela Eka Solly Aryza Soulissa, Fatmhy F Sri Tirto Madawistama Suherman Sujatmiko, Wandi Susilo, Anto Syamsu Rijal Tabroni , Imam Tersta, Friscilla Wulan Tusi, Juandri Seprianto Ujuh Juhana Umasugi, M Taufan utama, cholidah Utami, Zathu Restie Vanchapo, Antonius Rino Wardhani, Rachmasari Pramita Wibowo Hardjawana, Wibowo Widianingsih, Betti Xu, Shanshan Yakir, Julia Zhang Wei Zou, Guijiao