Ключевые слова
dynamometer
drop
microcontroller
electrical signal
sensor
Smart dynamometer
Как цитировать
Аннотация
Sensors are one of the most important parts of modern technology, which provides data recording and conversion into digital signals. Within the framework of this research, an innovative SMART dynamometer was created, which is used to study the change in weight of the body during the fall process. The goal of the research was to create a device that would accurately analyze the effects of forces, acceleration and air resistance during the fall process. SMART dynamometer is built on a potentiometric sensor, which allows for the acquisition of quantitative data from the fall process and their visualization. SMART dynamometer consists of a spring, potentiometer, microcontroller and Bluetooth module. The potentiometer converts the force into an electrical signal, which is processed by the microcontroller and displayed in Newtons. The data is visualized using the Visual Basic program. The data obtained from the fall of the SMART dynamometer from a certain height show that the body retains its weight at the first stage due to inertia, and after a certain time the weight becomes equal to 0. The results of the experiment were successfully visualized in graphical form. This study showed that the SMART dynamometer can be used to solve fundamental and practical problems, which significantly determines the prospects for its widespread use.
Библиографические ссылки
ზაზა ტაბატაძე, თეა თოდუა. არდუინო- პრაქტიკული სახელმძღვალელო დამწყებთათვის. თბილისი 2019 წ.
Теро Карвинен , Киммо Карвинен , Вилле Валтокари, Делаем сенсоры -ПРОЕКТЫ СЕНСОРНЫХ УСТРОЙСТВ НА БАЗЕ ARDUINO И RASPBERRY PI Москва • Санкт-Петербург • Киев
"Sensors and Transducers" - Ian Sinclair 2000
"Introduction to Sensors" - John Vetelino, Aravind Reghu
© 2011 by Taylor and Francis Group, LLC
CRC Press is an imprint of Taylor & Francis Group, an Informa business
No claim to original U.S. Government work
https://portal.tpu.ru/SHARED/a/ARISTOV/Learning/Tab1/Tab4/Rezistivnye.pdf015
Nona Otkhozoria, Vano Otkhozoria, & Shorena Khorava. (2022). Search for an extremum using the steepest descent method under the conditions of experimental errors. World Science, (2(74). https://doi.org/10.31435/rsglobal_ws/28022022/7785
Otkhozoria, N., Narchemashvili, M., & Otkhozoria, V. (2023). The effectiveness of the Hooke-Jeeves method in the experiment under error conditions is assessed. Georgian Scientists, 5(4), 285–288. https://doi.org/10.52340/gs.2023.05.04.25
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