The air cushion train
The one answer for the levitating trains would be the solution, where both sides of the trains would be magnetic track. This system would hover on the normal air cushion when it can drive over the standard layer. So it would necessarily need special tracks, but the accelerators, which are similar to railgun need energy. Those structures can install on the sides of the track, and they could be installed. But the air cushion train would operate also over pure concrete elements.
The difference for the hyperloop is that this solution would not need a tube around it. And this system would operate above the normal tracks. Wich makes it cheaper than hyperloop because there is needed to put the accelerators to both sides of the track, but the problem is that this kind of system, what hovers above the air cushion would need something, what denies the damages if there are problems with control, and the vehicle would go to out from the track .
But the air cushion would allow this system to operate over the water. And the magnetic accelerators would be pulled over the water if those magnets are connected to buoys, which means that those magnet lines can be laid from the ships. That makes possible to benefit rivers and lakes for this kind of transportation, and this system would have multiple platforms, where it can operate. And that kind of idea could revolutionize logistics and transportation. But those ideas are also very interesting to think about.
An idea of the air cushion is, that it would minimize the friction. But also magnetic levitation can be used for the same purpose. The problem with magnetic levitation is that it needs a brand new infrastructure because pushing magnets must installed in the layer, but magnetic levitation is also a very simple solution, and it bases that magnets push each other away, if they have same mark polarity against together.
So if the form of the train would be aerodynamic, that thing will decrease the need for energy. The idea is that the more conventional system than hyperloop would be the interphrase between hyperloop and conventional trains. The major problem of hyperloop is that it travels in the tubes. The air would be removed from the tube, which would minimize the friction.
Hyperloop can travel forward by using a vacuum pull, where the lower pressure ahead of the vehicle would pull it in the tube, and the second version is the version, which will travel above the layer by using magnetic levitation. The speed of the train will be extremely high, and because there is no air in the tube, that removes the friction. But the system is brand new, and it has not tested yet.
The one answer for the levitating trains would be the solution, where both sides of the trains would be magnetic track. This system would hover on the normal air cushion when it can drive over the standard layer. So it would necessarily need special tracks, but the accelerators, which are similar to railgun need energy. Those structures can install on the sides of the track, and they could be installed. But the air cushion train would operate also over pure concrete elements.
The difference for the hyperloop is that this solution would not need a tube around it. And this system would operate above the normal tracks. Wich makes it cheaper than hyperloop because there is needed to put the accelerators to both sides of the track, but the problem is that this kind of system, what hovers above the air cushion would need something, what denies the damages if there are problems with control, and the vehicle would go to out from the track .
But the air cushion would allow this system to operate over the water. And the magnetic accelerators would be pulled over the water if those magnets are connected to buoys, which means that those magnet lines can be laid from the ships. That makes possible to benefit rivers and lakes for this kind of transportation, and this system would have multiple platforms, where it can operate. And that kind of idea could revolutionize logistics and transportation. But those ideas are also very interesting to think about.
An idea of the air cushion is, that it would minimize the friction. But also magnetic levitation can be used for the same purpose. The problem with magnetic levitation is that it needs a brand new infrastructure because pushing magnets must installed in the layer, but magnetic levitation is also a very simple solution, and it bases that magnets push each other away, if they have same mark polarity against together.
So if the form of the train would be aerodynamic, that thing will decrease the need for energy. The idea is that the more conventional system than hyperloop would be the interphrase between hyperloop and conventional trains. The major problem of hyperloop is that it travels in the tubes. The air would be removed from the tube, which would minimize the friction.
Hyperloop can travel forward by using a vacuum pull, where the lower pressure ahead of the vehicle would pull it in the tube, and the second version is the version, which will travel above the layer by using magnetic levitation. The speed of the train will be extremely high, and because there is no air in the tube, that removes the friction. But the system is brand new, and it has not tested yet.
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