In this paper, we offer high school physics teachers valuable insights into the effective incorporation of Arduino-based classroom physics measurements for teaching electromagnetics. By engaging students in activities that involve measuring the conductance of liquids and exploring the magnetic field of a solenoid, starting from fundamental concepts and progressing to more complex tasks, we facilitate their journey toward a deeper, abstract understanding of the subject matter. These projects, centered on digital technology, encompass activities such as digital data collection, data analysis, and even functions plotting. These hands-on experiences enhance students’ technical skills, and also provide teachers with a powerful quantitative teaching method, allowing them to emphasize specific physical phenomena and their underlying theoretical principles. Consequently, these Arduino-based measurements play a pivotal role in fostering students’ competence development and improving their attitude towards learning physics.