PENGEMBANGAN ALAT PRAKTIKUM FISIKA PADA TOPIK HUKUM KEKEKALAN MOMENTUM BERBASIS ARDUINO UNO MENGGUNAKAN SENSOR ULTRASONIK HC-SR94

JURNAL FIRNAS Pub Date : 2023-05-26 DOI:10.24127/firnas.v4i1.4425

Ahmad Ardianto, Nyoto Suseno, Friska Octavia Rosa, Eko Prihandono

{"title":"PENGEMBANGAN ALAT PRAKTIKUM FISIKA PADA TOPIK HUKUM KEKEKALAN MOMENTUM BERBASIS ARDUINO UNO MENGGUNAKAN SENSOR ULTRASONIK HC-SR94","authors":"Ahmad Ardianto, Nyoto Suseno, Friska Octavia Rosa, Eko Prihandono","doi":"10.24127/firnas.v4i1.4425","DOIUrl":null,"url":null,"abstract":"Arduino uno/microcontroller can be applied in the world of education, one of which is used as material for the development of digital practicum tools. This research aims to; (1) develop a physics practicum tool in the mechanics course, namely the material for the law of conservation of momentum which is developed based on Arduino uno; (2) to find out how to design more precise practicum tools; (3) knowing the feasibility of the momentum conservation law practicum tool developed. This research is an ADDIE research which involves the stages of model development with five steps/development phases including: analysis, design, development or production, implementation and evaluation. Research data were collected using a validation questionnaire sheet, user response questionnaires and documentation. The results of this study are; (1) produce a product in the form of a physics practicum tool on the material of the law of conservation of momentum based on Arduino uno with an ultrasonic sensor HC-SR04; (2) the precision/precision of the practicum tool that has been developed has an accuracy value of 0.178 kg m/s; (3) the feasibility of the product of physics practicum tools on the material of the law of conservation of momentum based on Arduino uno with the ultrasonic sensor HC-SR04 as a whole is categorized as very feasible to use, namely getting a percentage value of 86% according to media experts, 91% according to material experts and 90% according to media experts. students/users and practicum tools developed are categorized as very suitable for use in practical activities. The product resulting from this research is a practical tool for the law of conservation of momentum based on Arduino uno using an ultrasonic sensor HC-SR04. In this development, it is not only practicum tools, the practicum tools developed are equipped with user manuals and practicum guides that function to make it easier for users to carry out practical activities.","PeriodicalId":476924,"journal":{"name":"JURNAL FIRNAS","volume":"18 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-05-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"JURNAL FIRNAS","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.24127/firnas.v4i1.4425","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Arduino uno/microcontroller can be applied in the world of education, one of which is used as material for the development of digital practicum tools. This research aims to; (1) develop a physics practicum tool in the mechanics course, namely the material for the law of conservation of momentum which is developed based on Arduino uno; (2) to find out how to design more precise practicum tools; (3) knowing the feasibility of the momentum conservation law practicum tool developed. This research is an ADDIE research which involves the stages of model development with five steps/development phases including: analysis, design, development or production, implementation and evaluation. Research data were collected using a validation questionnaire sheet, user response questionnaires and documentation. The results of this study are; (1) produce a product in the form of a physics practicum tool on the material of the law of conservation of momentum based on Arduino uno with an ultrasonic sensor HC-SR04; (2) the precision/precision of the practicum tool that has been developed has an accuracy value of 0.178 kg m/s; (3) the feasibility of the product of physics practicum tools on the material of the law of conservation of momentum based on Arduino uno with the ultrasonic sensor HC-SR04 as a whole is categorized as very feasible to use, namely getting a percentage value of 86% according to media experts, 91% according to material experts and 90% according to media experts. students/users and practicum tools developed are categorized as very suitable for use in practical activities. The product resulting from this research is a practical tool for the law of conservation of momentum based on Arduino uno using an ultrasonic sensor HC-SR04. In this development, it is not only practicum tools, the practicum tools developed are equipped with user manuals and practicum guides that function to make it easier for users to carry out practical activities.

查看原文本刊更多论文

基于ARDUINO UNO的动量法的物理实践工具的发展使用超声波- HC-SR94传感器

Arduino uno/微控制器可以应用于教育领域，其中一个被用作开发数字实习工具的材料。本研究旨在;(1)在力学课程中开发一个物理实习工具，即基于Arduino uno开发的动量守恒定律材料;(2)找出如何设计更精准的实习工具;(3)了解动量守恒定律实践工具开发的可行性。本研究是一项ADDIE研究，涉及模型开发的五个阶段/开发阶段，包括:分析，设计，开发或生产，实施和评估。研究数据收集采用验证问卷表，用户回答问卷和文件。本研究的结果是;(1)利用超声波传感器HC-SR04，基于Arduino uno制作关于动量守恒定律材料的物理实习工具的产品;(2)已开发的实习工具精度/精密度精度值为0.178 kg m/s;(3)基于Arduino uno和超声波传感器HC-SR04的材料上的动量守恒定律的物理实习工具产品的可行性总体上被归类为非常可行的使用，即媒体专家给出的百分比值为86%，材料专家给出的百分比值为91%，媒体专家给出的百分比值为90%。学生/用户和开发的实习工具被归类为非常适合在实践活动中使用。本研究的成果是基于Arduino uno使用超声波传感器HC-SR04实现动量守恒定律的实用工具。在这一发展中，不仅是实习工具，开发的实习工具还配备了用户手册和实习指南，使用户更容易进行实践活动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

JURNAL FIRNAS

自引率

0.00%

发文量