How to control hovering C^60 balls?

Above this text, you can see a cloud. Cloud is the entirety of the water droplets. The rising air keeps those tiny droplets airborne simply by forming the lower pressure area above them. This thing makes water droplets hover. 

So if the speed of rising gas is high enough. Even large objects can rise over the ground. The combination of the high pressure below the object and low pressure above it pulls also dust and ash airborne. 

But there is also another way to make objects like fullerene balls hover. That thing is the energy stress that impacts those molecules. If the fullerene molecule turns hot enough that thermal radiation makes it hover. Image 2 is the fullerene where is trapped a water molecule inside it. 

The single water molecule has the quantum state that makes it polar. The polar molecules affect magnetic fields. So the heat can put fullerene molecule hover. 

XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX

Could the Roman dodecahedron be some kind of communication system or even a flying toy?

Roman dodecahedron (Wikipedia) 

The idea is that there is a ball of pure gold or some other rare metal inside the dodecahedron. Then the acoustic system sends the resonance signal to that ball. And then that ball sends the symmetrical pressure waves to the dodecahedron. 

The little  "horns" around that dodecahedron aim the soundwaves in all directions. That allows making the 3D structure that is created by using interconnected dodecahedrons. But if those pressure signals are powerful enough. They can rise dodecahedron even up from layer. 

https://en.wikipedia.org/wiki/Roman_dodecahedron

Image 2)  https://en.wikipedia.org/wiki/Roman_dodecahedron

**********************************************************************

Image 3)

The cold method could be more effective than the so-called hot method where fullerene will heat. In this method, the symmetrical pressure impulses will push the object upwards. 

Another way to put fullerene molecule fly is to aim the acoustic signal at that carbon molecule. Or rather the acoustic signal must make the water molecule in the carbon ball oscillate. That oscillation will transfer to the core of the fullerene. And then the pressure waves that are impacting the core of the fullerene and tunneling through it will push the fullerene up. Then the magnetic fields can use to aim that thing in the wanted direction. 

And then the magnetic field that affects the water molecule can make this small carbon ball fly in the wanted direction. Water molecules can use to control especially the hovering carbon balls. The thing is that the flying carbon balls that can fly in the wanted direction might have multirole missions in the next-generation nanotechnology. 

https://phys.org/news/2013-05-buckyball-inserting-molecule.html

Image 3) https://phys.org/news/2013-05-buckyball-inserting-molecule.html