RESEARCH ON THE ELECTRICAL EFFECT OF FERROMAGNETIC MATERIAL ON THE COIL
RESEARCH ON THE ELECTRICAL EFFECT OF FERROMAGNETIC MATERIAL ON THE COIL
Applying an electric current to the coils causes a magnetic field to around them. The self-induction electromotive force occurring in this magnetic field depends on time, coil current, and the number of turns. Ferromagnetic materials such as iron, cobalt, and nickel can be magnetized in this magnetic field. In the study, different values of Alternating and Direct current were applied to the coil wound on the square-shaped carcass under core and coreless conditions. Obtained values are interpreted with tables and graphics. In the application made by placing the silicon core in the coil under varying values, it was observed that the values obtained in the core and coreless cases were the same. In alternating current measurements, it was determined that the electrical current values obtained under both conditions were different. In this study, the effect of the core on the coil has been demonstrated experimentally in electrical system.
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