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Real-Time Measurement and Analysis of Magnetic Fields Using Data Logger 1Department of Physics Education, Universitas Negeri Jakarta, Jl. Rawamangun Muka, Jakarta 13220, Indonesia Abstract This study aims to perform real-time measurement and analysis of magnetic fields using a data logger. The experimental setup consisted of a data logger, magnetic field sensor, permanent magnet, straight current-carrying conductor, power supply, probe cables, and distance measuring instrument. Magnetic field measurements on a permanent magnet were conducted by varying the distance between the sensor and the magnet from 0.5 cm to 10 cm. The results showed that the magnetic field strength decreased significantly from 31.470 G at 0.5 cm to 0.098 G at 10 cm, indicating that magnetic field intensity weakens with increasing distance from the magnetic source. Measurements were also performed on a straight current-carrying conductor carrying approximately 5 A. The magnetic field strength decreased from 0.317 G at 0.5 cm to -0.073 G at 2.5 cm, reflecting variations in both magnetic field magnitude and direction around the conductor. The data logger provided stable real-time acquisition, automatic data recording, and graphical visualization of magnetic field variations throughout the experiments. These findings demonstrate that a data logger can be effectively utilized for real-time measurement and analysis of magnetic fields, supporting reliable magnetic field characterization in applied physics experiments. Keywords: magnetic field, data logger, permanent magnet, magnetic induction. Topic: Applied Technology in Physics |
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