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All Journal Seminar Nasional Hasil Riset dan Pengabdian (SNHRP) Journal of Embedded Systems, Security and Intelligent Systems
Siti Nur Rahmawati
Universitas Sebelas Maret
Computer Science & IT Other

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Modul Elektronik Fisika Berbasis Google Sites (Metrofalesi) sebagai Inovasi Pembelajaran Jarak Jauh Mata Pelajaran Fisika Kelas X SMA Siti Nur Rahmawati; Restu Hidayat; Fariza Amelia
SNHRP Vol. 4 (2022): Seminar Nasional Hasil Riset dan Pengabdian (SNHRP) Ke 4 Tahun 2022
Publisher : LPPM Universitas PGRI Adi Buana

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Abstract

Fisika merupakan cabang ilmu yang fundamental sehingga mempelajarinya merupakan hal yang sangat penting untuk dilakukan. Namun kesulitan dalam pembelajaran fisika yang seringkali ditemui, terutama yang disebabkan oleh ketidak efektifan pembelajaran jarak-jauh. Hal tersebut membuat keberadaan modul sebagai penunjang pembelajaran secara mandiri menjadi krusial bagi siswa. Oleh karena itu, peneliti mengembangkan modul elektronik berbasis web dengan menggunakan Google Sites untuk materi dinamika gerak kelas X SMA. Model penelitian pengembangan yang digunakan dalam penelitian ini adalah ADDIE (Analysis, Design, Development, Implementation, and Evaluation). Validasi media dilakukan oleh dua orang ahli media dan dua orang ahli materi dan menunjukkan pengembangan modul elektronik fisika berbasis Web pada materi dinamika gerak untuk siswa kelas X SMA dengan menggunakan Google Sites ini memenuhi kriteria sangat baik.
Internet of Things Experiment Device for Laboratory Activities in Heat Transfer Mechanism Siti Nur Rahmawati; Daru Wahyuningsih
Journal of Embedded Systems, Security and Intelligent Systems Vol 6, No 2 (2025): June 2025
Publisher : Program Studi Teknik Komputer

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59562/jessi.v6i2.2216

Abstract

As a branch of fundamental science, physics studies the laws underlying physical events that happen in nature. To learn physics, laboratory activity is necessarily involved, and it requires supporting devices to observe and study phenomena that are physically abstract, such as heat transfer mechanisms. This research aims to develop an Internet of Things (IoT) experiment device for heat transfer using NodeMCU and describe its working principle and measurement result. It involved NodeMCU, MAX6675 sensor, and LCD 1602 as the main components. The procedures carried out in this research included planning, developing, testing, data collecting, data analyzing, and reporting. Multiple measurements were carried out to analyze the standard error value of the device. The standard error values of both thermocouples used in the device were 1,336104 for the first thermocouple and 0,754315 for the second. Additionally, the IoT device’s thermocouple readings were calibrated using the linear regression method and the validation experiment showed that the calibration has increased its accuracy value.
Co-Authors Daru Wahyuningsih Fariza Amelia Restu Hidayat