{"@context":"https://schema.org","@type":"CreativeWork","@id":"https://jr.mitou.org/english/projects/2022/fluxel","name":"Fluxel - Development and Application of a Magnetic Levitation Linear Electromagnetic Acceleration Launcher","description":"This device levitates an object on a linear rail using magnetic levitation and accelerates it through electromagnetic force for launch. It was developed with the idea that an electromagnetic catapult could be used for the short-distance takeoff of fixed-wing transport drones. The device rapidly accelerates by sequentially applying pulse currents to the coils on the rail. There are no mechanical operations such as motors or belts.","creator":[{"@type":"Person","name":"Akito Hoshi"}],"contributor":{"@type":"Person","name":"Yohei Yasukawa","url":"https://jr.mitou.org/mentors/#yohei_yasukawa"},"video":{"@type":"VideoObject","name":"Fluxel - Development and Application of a Magnetic Levitation Linear Electromagnetic Acceleration Launcher","embedUrl":"https://www.youtube.com/embed/ks_hZaEE8Kk","description":"This device levitates an object on a linear rail using magnetic levitation and accelerates it through electromagnetic force for launch. It was developed with the idea that an electromagnetic catapult could be used for the short-distance takeoff of fixed-wing transport drones. The device rapidly accelerates by sequentially applying pulse currents to the coils on the rail. There are no mechanical operations such as motors or belts.","thumbnailUrl":"/assets/img/projects/2022/fluxel.webp","uploadDate":"2022-11-03T10:00:00+09:00"},"dateCreated":"2022-10-01T10:00:00+09:00","educationalLevel":"Primary and Secondary Education (Ages 17 and under)","inLanguage":"en","isPartOf":{"@type":"EducationalProgram","name":"MITOU Junior","url":"https://jr.mitou.org"}}