Visualization of the proposed SPARC tokamak experiment. Using high-field magnets built with newly available high-temperature superconductors, this experiment would be the first controlled fusion plasma to produce net energy output. Visualization by Ken Filar, PSFC research affiliate
Within 15 years, MIT expects to produce energy from fusion. MIT and Commonwealth Fusion Systems (CFS) collaborate in a new US initiative and decided to take a radically different approach to other efforts to transform fusion fram an exensive science experiment into a viable commercial energy source.
The team intend to use a new class of high-temperature superconductors they predict will allow them to create the world’s first fusion reactor that produces more energy than needs to be put in to get the fusion reaction going. Read More
The magnetic motor works on the simple principle that we all already know, ‘Like poles repel each other while opposite poles attract each other’. By arranging the magnets in a fashion where only like poles face each other, one can simply set the motor into motion like in the video below.