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All Journal Jurnal Pendidikan Fisika dan Teknologi Journal International of Lingua and Technology Innovative: Journal Of Social Science Research Journal of Moeslim Research Technik Research of Scientia Naturalis
Angglena, Melly
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Aerospace Engineering Agriculture, Biological Sciences & Forestry Humanities Automotive Engineering Chemistry Computer Science & IT Control & Systems Engineering Education Electrical & Electronics Engineering Engineering Languange, Linguistic, Communication & Media Law, Crime, Criminology & Criminal Justice Physics Public Health Other

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The Role of Cloud Computing Technology in Supporting Educational Accessibility and Scalability Loebis, Iin Almeina; Mustofa, Muhammad; Arifin, Syaadiah; Angglena, Melly; Salim, Yeffriansjah
Journal International of Lingua and Technology Vol. 3 No. 2 (2024)
Publisher : Sekolah Tinggi Agama Islam Al-Hikmah Pariangan Batusangkar, West Sumatra, Indonesia.

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55849/jiltech.v3i2.682

Abstract

Education is very important for human life. Many of them are vying for the best education in the world to guarantee a better future. The thing that is very concerned about in Education is learning and also the right method of teaching, because that way it can give birth to a competitive and quality generation. One of them is the role of cloud computing technology, which is a combination of the use of computer technology and internet-based development. A way or method that makes it easy for users to access information without knowing what is in it, being expert with it or having control over it. Cloud computing is an important technology that has helped many institutions and schools use distance learning, and can support Education's accessibility and scalability. The purpose of this study is to determine the role of cloud computing technology in increasing the accessibility and scalability of more advanced education and being able to create a generation that is highly competitive and virtuous. The method used in this study uses a quantitative method by distributing questionnaires to respondents as many as 15 statements about the use of cloud computing technology in education. The results of this study proved to be a very effective role for cloud computing technology in improving education, because this technology can increase students' interest in learning and make them enthusiastic in learning, so as to create an interactive learning atmosphere. The implication of this latest technology is to make learning more interesting and easily accessible anytime and anywhere by students. Assignments can be collected online by utilizing various supporting educational platforms and application delivery of subject matter.
Validity and Reliably Test: An Analysis of Students’ Comprehension and Skill in Applied Physics Angglena, Melly; Pandey, Fhandy
Jurnal Pendidikan Fisika dan Teknologi (JPFT) Vol 11 No 1 (2025): January-June
Publisher : Department of Physics Education, Universitas Mataram

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29303/jpft.v11i1.8779

Abstract

The low level of students’nderstanding of basic physics concepts impacts their learning outcomes. To address this issue, several teaching methods were implemented, including project-based learning (PBL), problem-solving, simulation, interactive discussions, and group presentations. This study aims to enhance students understanding of the Applied Physics course in the Electrical System Engineering for Oil and Gas Program at Ambon State Polytechnic. This research employs a quantitative descriptive approach, with data collected through questionnaires from 25 first-semester students. The findings indicate that the applied methods positively contributed to improving students understanding, with 48% of students achieving a good level of comprehension and 24% reaching an excellent level. Factors supporting this improvement include students active engagement in the learning process, the use of technology in simulations, and more interactive and contextual teaching methods. Thus, the implementation of these innovative teaching methods has proven effective in enhancing students comprehension of Applied Physics concepts. Continuous evaluation and development of teaching strategies are necessary to ensure the ongoing improvement of learning quality in the future.
Pemetaan Zona Rawan Gempa Berdasarkan Jejak Historis Gempa dan Kerusakan Infrastruktur Angglena, Melly; Pandey, Fhandy
Innovative: Journal Of Social Science Research Vol. 5 No. 3 (2025): Innovative: Journal Of Social Science Research
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/innovative.v5i3.18963

Abstract

Indonesia berada di kawasan Cincin Api Pasifik, menjadikannya salah satu negara dengan tingkat aktivitas seismik tertinggi di dunia. Sejumlah gempa bumi besar dalam sejarah telah menyebabkan kerusakan signifikan terhadap infrastruktur dan korban jiwa. Penelitian ini bertujuan untuk memetakan zona rawan gempa berdasarkan data historis kejadian gempa bumi dan tingkat kerusakan infrastruktur, guna mendukung upaya mitigasi bencana yang berbasis bukti. Penelitian ini menggunakan pendekatan deskriptif dengan analisis spasial. Data sekunder dikumpulkan dari Badan Meteorologi, Klimatologi, dan Geofisika (BMKG), Badan Nasional Penanggulangan Bencana (BNPB), dan dokumentasi media terkait kejadian gempa besar dalam dua dekade terakhir. Data dianalisis menggunakan Sistem Informasi Geografis (SIG) untuk mengidentifikasi pola persebaran gempa dan wilayah dengan tingkat kerusakan tinggi. Pemetaan menunjukkan konsentrasi zona rawan gempa berada di sepanjang jalur subduksi, khususnya di wilayah Sumatera bagian barat, pantai selatan Jawa, dan kawasan timur Indonesia seperti Maluku dan Papua. Tingkat kerusakan infrastruktur cenderung lebih tinggi pada kawasan dengan kepadatan bangunan rendah hingga sedang namun dengan kualitas konstruksi yang buruk. Hasil penelitian ini dapat dijadikan dasar dalam pengambilan kebijakan tata ruang, penguatan struktur bangunan, serta edukasi masyarakat terhadap kesiapsiagaan gempa.
Penerapan ISO 14064 dalam Pengelolaan Gas Rumah Kaca Sektor Pembangkit Listrik di Indonesia Pandey, Fhandy; Angglena, Melly
Innovative: Journal Of Social Science Research Vol. 5 No. 3 (2025): Innovative: Journal Of Social Science Research
Publisher : Universitas Pahlawan Tuanku Tambusai

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/innovative.v5i3.19946

Abstract

Ketergantungan Indonesia pada pembangkit listrik tenaga uap berbahan bakar batubara menjadikan sektor ketenagalistrikan sebagai kontributor utama emisi gas rumah kaca (GRK) nasional. Artikel ini mengevaluasi penerapan standar internasional ISO 14064 untuk mendukung pengelolaan dan verifikasi emisi GRK di sektor pembangkitan listrik. Metode yang digunakan mencakup analisis terhadap prinsip dan struktur ISO 14064 bagian 1, 2, dan 3, serta pemetaan terhadap regulasi nasional seperti Perpres 98/2021 dan Permen ESDM 16/2022. Hasilnya menunjukkan kesesuaian sebagian hingga menyeluruh antara kebijakan nasional dan prinsip ISO. Manfaat penerapan ISO 14064 meliputi peningkatan transparansi, efisiensi operasional, serta potensi akses ke pasar karbon. Namun, tantangan utama seperti keterbatasan data Lingkup 3 dan biaya sertifikasi perlu diatasi. Artikel ini menyarankan penguatan kebijakan, pembangunan kapasitas, serta pemanfaatan teknologi digital untuk memperluas adopsi ISO 14064 di sektor ini..
Use of Superconductor Technology in High Speed Electrical Distribution Networks Firdaus, Muhammad; Angglena, Melly; Widiastuti, Sri; Tahir, Usman; Chai, Som
Journal of Moeslim Research Technik Vol. 2 No. 1 (2025)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/technik.v2i1.1931

Abstract

The increasing demand for efficient and reliable electricity distribution necessitates innovative technologies. Superconductors, known for their ability to conduct electricity without resistance, present a promising solution for enhancing power transmission. Their implementation in high-speed electric distribution networks could revolutionize energy efficiency and reliability. This research aims to evaluate the feasibility and benefits of integrating superconducting technology into high-speed electricity distribution systems. The study seeks to identify the performance improvements and potential challenges associated with this technology. A mixed-methods approach was employed, combining theoretical analysis with practical simulations. The performance of superconducting cables was compared to conventional copper and aluminum cables under varying load conditions. Key metrics, including efficiency, energy loss, and thermal performance, were assessed using advanced simulation software. The findings indicate that superconducting cables can achieve up to 90% efficiency, significantly reducing energy losses compared to traditional materials. Simulations demonstrated that superconductors can handle higher power loads with minimal thermal issues, making them suitable for high-speed distribution networks.  
Recent Progress in Electrochemical Sensors for Environmental Monitoring Angglena, Melly; Zaman, Khalil; Ali, Zara
Research of Scientia Naturalis Vol. 1 No. 4 (2024)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/scientia.v1i4.1575

Abstract

The increasing demand for real-time monitoring of environmental pollutants has driven advancements in electrochemical sensors. These sensors offer high sensitivity, selectivity, and the ability to operate in diverse conditions, making them ideal for environmental applications. Recent developments in materials and technologies have further enhanced their performance. This research aims to review the latest advancements in electrochemical sensors specifically designed for environmental monitoring. The focus is on evaluating their effectiveness in detecting various pollutants, including heavy metals, pesticides, and gases. A systematic literature review was conducted, analyzing recent studies and innovations in electrochemical sensor technology. Key parameters such as sensitivity, detection limits, and response times were compared across different sensor types. Advances in nanomaterials and miniaturization techniques were also examined to assess their impact on sensor performance. The findings indicate significant improvements in electrochemical sensors, with many achieving detection limits in the nanomolar range. Sensors utilizing nanostructured materials demonstrated enhanced sensitivity and faster response times. Additionally, the integration of wireless technologies allows for real-time data transmission, facilitating more efficient environmental monitoring. Recent progress in electrochemical sensors represents a vital advancement in environmental monitoring technology. These sensors offer promising solutions for detecting pollutants with high precision and reliability. Future research should focus on further improving sensor robustness and expanding their applicability across various environmental contexts.
Co-Authors Ali, Zara Arifin, Syaadiah Chai, Som Fhandy Pandey, Fhandy Loebis, Iin Almeina Muhammad Firdaus Muhammad Mustofa Salim, Yeffriansjah Sri Widiastuti, Sri Tahir, Usman Zaman, Khalil