consider malleable porous material when electromagnetic resonance comes in contacts, if considering an approach to electromagnetism as an out of solution process.
Until we get more powerful and lighter weight batteries hoverboards like the one in Spider-Man 3 that can fly real high and last for several hours are not possible. Still we are getting closer.
I didn't say it wasn't possible with current technology, I said you wouldn't see anything with the full capabilities of what is shown in SM3. Which is still completely true. Battery storage density is still far below the potential energy of gasoline and other fuel sources. Electricity is getting to the point of being cheaper so even if you stop more, it's still cheaper to drive all electric. You just spend much more time "filling up" and stop more often. You need a heavier battery to power the board longer, but more weight means you need a bigger motor (fans as well to generate more lift) which means even more power to turn them. You get a feedback loop which doesn't scale down at all. 30 minutes is likely the best we can do without having a huge "hoverboard". Edit: I recall Hunter's board being limited to 20 minutes of flight time. It's not a dual fan design, however.
All you really need to do is add a fan propulsion system to the magnetic or superconducting boards. Controlled by remote in hand and fans activated depending on which direction you're leaning (to make natural turns).
My life will be complete the day I can buy a back 2 the future style hoverboard for a realistic price. 1-2k. Travel a few miles at least a foot off the ground. Idk why but Im drawn to the idea of self flight. Iron man type stuff.
Good luck understanding the narration if English is your second language.... Come to think of it.... equally good luck understanding the narration if English is your first language.
New Room-Temperature Superconductors will eliminate the need for expensive cryogenics. www.superconductors.org/news.htm Better yet - magnetically excited xenon gas filled SiO2 capillary superconductors. If the diameter of “Plasma Capillaries” was 23 times smaller than copper wires, then we could put (23 x 23) 500 times more coil turns in the same space as copper magnet wires. Or just use 500 times less input electrical current to charge the coils to get the same resultant coil produced magnetic strength. This was GE’s Vision for the Superconductor Industry - before room-temperature superconductors were beginning to be found 5 years ago. " Electric generators made with superconducting wire are far more efficient than conventional generators wound with copper wire. In fact, their efficiency is above 99% and their size about half that of conventional generators. These facts make them very lucrative ventures for power utilities. General Electric has estimated the potential worldwide market for superconducting generators in the next decade at around $20-30 billion dollars. Late in 2002 GE Power Systems received $12.3 million in funding from the U.S. Department of Energy to move high-temperature superconducting generator technology toward full commercialization.” - from www.superconductors.org/uses.htm 35 Room-Temperature Super Conductors Found Since March 2011 www.superconductors.org/158C155C.htm Superconductor News - www.superconductors.org/news.htm Magnetically excited xenon gas filled sub millimeter OD SiO2 capillaries (like very tiny neon tube sign lamps) www.youtube.com/watch?v=A_64uihg4 may be the best great candidate for room-temperature superconductors and have the potential to be the most affordable. SiO2 is the most abundant solid material on earth.
+Mike Hingle Can you give me a working video link on xenon gas filled capillaries? I wonder why nobody else has tested the 35 RT compounds which were discovered.
