Magnetic levitation (MagLev) technologies are rapidly evolving, offering transformative methodologies in materials characterisation, precision engineering and process automation. By balancing ...

Magnetic levitation systems and actuators represent a significant advance in precision motion control, utilising magnetic forces to suspend and manoeuvre objects without physical contact. These ...

The scientists chemically coated each graphite particle with a layer of electrically insulating silica. Polyethylene glycol (PEG) helps silica bind to the surface of the graphite. The coated graphite ...

Two German physicists have reimagined how to create powerful and uniform magnetic fields using compact permanent magnets. By overcoming the limitations of the well-known Halbach array, which works ...

Nowadays, we use batteries to store energy, however, this way is very inefficient because overcoming friction and gravity takes most of the energy. But Japan presents a very innovative solution which ...

In a remarkable development that has left the scientific community astounded, a magnetic material has been discovered that exhibits levitation. This breakthrough has the potential to revolutionize our ...

Japan, renowned for its technological innovations, is on the brink of revolutionizing the automotive industry with the development of magnetic levitation (maglev) cars. This groundbreaking technology, ...

Brazil is taking another step forward in the development of a magnetic levitation train (maglev). These futuristic vehicles, which are still rare worldwide, hover a few centimeters above the track, ...

The world is experiencing a green revolution in energy, but wind power has not yet fully tapped into the residential homes market. While everybody is putting solar panels on the roofs of their homes, ...