In this study, the spring constant was determined within the scope of Hooke’s law. For this purpose, an Arduino MEGA, an HC-SR04 Ultrasonic Distance Sensor, and a 1 kg Load Cell Mass Sensor was used. Sensors and microprocessor are mounted on a plane. One end of the spring is mounted on the force sensor, and a wooden rod, perceived by the distance sensor, is mounted on the other end of the spring. In the data collection element of the study, the spring is slowly extended from its equilibrium position. In this process, elongation and spring force data are obtained with the help of Arduino. By means of the recorded values, graphs and equations relating to force-dependent elongation are determined. The spring constant is calculated by taking the first derivative of the determined force equation. Both a thin and a thick spring are used in the study. The spring constants of these springs are determined both individually and in series-parallel connection. In addition, the spring consta...

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使用Arduino确定弹簧常数

在这项研究中，弹簧常数是在胡克定律的范围内确定的。为此，使用了Arduino MEGA，HC-SR04超声波距离传感器和1 kg称重传感器。传感器和微处理器安装在平面上。弹簧的一端安装在力传感器上，而距离传感器感知的一根木杆则安装在弹簧的另一端。在研究的数据收集元素中，弹簧从其平衡位置开始缓慢延伸。在此过程中，借助Arduino获得伸长率和弹力数据。通过所记录的值，确定与力相关的伸长率有关的图表和方程。通过确定的力方程的一阶导数计算弹簧常数。研究中使用了薄弹簧和厚弹簧。这些弹簧的弹簧常数既可以单独确定，也可以串并联确定。另外，春季保...