In that link, is my sketchup drawing on the EUC at flight mode with propellers.

In angle1.png,

Red = I believe that is how the EUC accelerates. When you press into it with your shin,

it moves forward.

Black bars = is to help with stability as you accelerate and this is important,

as you are landing from the flight mode.

Blue = the blades, the propellers.

Green = extendable stands, to make it stand on its own when parked.

Grey box at the top = the battery + motor.

Somewhere between the blades and the gripping bar at the top,

will be the motors spinning the blades as the blades changes angle to horizontal.

And also the parachutes can go in there as well.

I got too tired to add that in.

So you can see it from another angle in angle2.png.

So the person, can stand. As would EUC.

 

It's just for fun. I don't know if there is feasibility in market.

But for engineering, it is technically possible to create.

 

 

 

Alright so 8:24am in the morning, Woke up 2 hours ago.

Finally flipped day and night again. Need to keep this up.

Going to make breakfast with fried vegetables and fish before it goes bad.

 

 

As for the plastic panels, once each panel is side to side, another plastic beam can go on top

of the separating line between two panels, and be simply, welded on top of it.

but if to think about the electrodes/electrical grid within the panels,

the panels needs to be interlocked and the wiring connecting to each other after.

This can be by, once they are side by side, a spring and locking mechanism can pull a coiled wiring to the edges, and from another panel, the same spring locking mechanism can do the same, giving the installer a chance to connect the protruding edges by binding it, like stereo wiring.

or, simply use magnetism or something like that. to connect two ending points, the copper wiring.

well, i'm sure engineers have good ways to do that.

and that is to melt the snow.