In a highly developed era, of course, it will require the use of electricity to continue to increase, and the problem is to meet the high electricity demand, on the other hand the construction of electricity infrastructure that takes a long time will hamper the supply of electricity, therefore renewable energy sources are needed to overcome this problem. that's why we tried to make Magneto Electrical. Magneto Electrical is a Future Energy Source created to provide a safe, efficient, and environmentally friendly source of electrical energy. The purpose of this research is to design and manufacture Magneto Electrical: Future Energy Sources. The research method used is research and development (R&D). This research method is used to research so that it can produce new products and then test their effectiveness. Magneto Electrical works based on Faraday's Law, namely when a conductor is rotated in a magnetic field so that it cuts the magnetic lines at the end of the conductor, an emf (line of electric force) will be generated. Through this research, researchers have succeeded in designing and making Magneto Electrical: Future Electrical Energy Sources. By utilizing the repulsion between magnets so that motion energy is produced which is then converted into electrical energy. From the tests that have been carried out, it was found that the tool made is capable of producing 15 Volts of electrical energy.

Adam, L. (2016). Dinamika sektor kelistrikan di Indonesia: kebutuhan dan performa penyediaan. Jurnal Ekonomi dan Pembangunan, 24(1), 29-41.

Arifin, Y. R. (2020). Dilematika Kebijakan Ketenagalistrikan Dalam Usaha Penyediaan Tenaga Listrik di Indonesia. Jurnal Ius Constituendum, 6(1), 1-31.

Halliday , David. (2010). Fisika Dasar Edisi ke Tujuh Jilid 2. Jakarta: Erlangga.

Kumara, N. S. (2010). Pembangkit listrik tenaga surya skala rumah tangga urban dan ketersediaannya di Indonesia. Teknologi Elektro, 9(1), 68-75.

Liun, E. (2011). potensi energi alternatif dalam sistem kelistrikan Indonesia. In Prosiding Seminar Nasional Pengembangan Energi Nuklir IV.

Malik, H. (2019). Bangun Industri Desa Selamatkan Bangsa: Strategi Pembangunan Industri Desa di Kabupaten Kaur, Bengkulu. PT Penerbit IPB Press.

Mehora, S. (2018). Analisis Pengaruh Sifat kemagnetan Bahan Seng Terhadap Medan Magnet Lokal di BMKG Tondano. SAINTIFIK, 4(2), 111-122.

Sumarsono, S., Rofiq, A., & Djazuli, A. (2016). Segmentasi Pasar Sewa Peralatan Pembangkit Listrik Dengan Pendekatan Cluster Analysis (Studi Pada Pelanggan PT. Sumberdaya Sewatama Jakarta). Jurnal Bisnis dan Manajemen, 3(2).

Syafar , A. M. (2016). Kendali perangkat listrik dan monitoring daya pada MCB berbasis TCP/IP. Jurnal INSTEK (Informatika Sains dan Teknologi), 1(1), 11-20.

Syam, L. N., Suyanto, E., & Suana, W. (2017). Analisis Kelistrikan Akibat Perbedaan Temperatur Sambungan Kawat Logam Tembaga dan Seng untuk Peraga Termoelektrik. Jurnal Pembelajaran Fisika, 5(5), 67-75.