The purpose of this research is to produce a development product in the form of a Magnetic Levitation Train miniature model that can be used by teachers and students in the physics learning process on magnetic force material in class XII. This study uses research and development methods. The research was conducted through several stages, namely the first stage reviewing curriculum standard notes. The second stage is the design of the tool, making a miniature model of the Magnetic Levitation Train and the use of a miniature model of the Magnetic Levitation Train in the learning process. The third stage is the implementation stage, the miniature model of the Magnetic Levitation Train was tested on high school student of class XII to measure students against the miniature model of the Magnetic Levitation Train as a tool to help students understand the concept of magnetic force. The instrument uses a Likert Scale. With three stages, the researcher succeeded in making a miniature model of the Magnetic Levitation Train that was worthy of being one of the learning media on magnetic force material by obtaining information that the validation results by experts, material personnel and students obtained a very good level of measurement which was in the interpretation range of scores 80-100% so it is necessary to develop a miniature model of the Magnetic Levitation Train to be even better in further research.

Alat peraga, model miniatur, Kereta Magnetic Levitation

Borg W.R., Gall J.P and Gall M.D. (2014). Appliying Educational Research, 7th edition. London: Pearson Education.

Firdaus, Reza Kamal & Muslim, M. Aziz. (2018). Rancang Bangun Sistem Kereta Maglev Sebagai Simulasi Kontrol Gerak Levitasi Pada Kereta Maglev. Jurnal Mahasiswa TEUB Vol. 6 (3), 1-6.

Jaiaraman, Sujay & S., Madhu. (2015). A research review on magnetic levitation trains. International Journal of Applied Engineering Research. Vol.. 10 (33), 1-7.

Liu, L & Yuan F.G. (2013). Diamagnetic levitation for nonlinear vibration energy harvesting: theoretical modeling and analysis. J. Sound Vib. 332(2), 455-464

Pauliza, Osa. (2015). Strategi Pembelajaran Fisika. Universitas Malang.

Rusman. (2010). Model-model Pembelajaran. Jakarta: PT RajaGrafindo Persada.

Soares, Marcos P., Ferreira, Jorge. A.F., Simoes, Jose A.O., Pascoal, Ricardo., Torrao, Joao., Xue, Xiaozheng & Furlani, Edward P. (2016). Magnetic levitation-based electromagnetic energy harvesting: a semi-analytical non-linear model for energy transduction. 6: 18579.

Sukmadinata, Nana Syaodih. (2011). Landasan Psikologi Proses Pendidikan. Bandung: Remaja Rosdakarya.

Zhang, Zhenlin., Zhou, Younghua & Tao, Xin. (2020). Model predictive control of a magnetic levitation system using two-level state feedback. Measurement and control, Vol 53 (5-6)