A secondary problem concerning candidate #5 of the above can-raising example is how/where to source the telescoping tubes suitable for a fluid pressure which cannot exceed 100 kPa for safety reasons?
An all too common approach here is to visit the nearest hardware shop on the lookout for plastic or light alloy tubes of different diameters and thicknesses which may nest inside one another - and on being unable to unearth suitable tubes, to trash the candidate as impracticable. This lack of effort is deplorable. What one might do is . . . .
A simple p = F/A demonstrates that a pressure of 100 kPa acting over a circular area of only 11 mm dia will support a mass of 1 kg. Alternatively, if the whole 0.16 m2 plan area of the device is available to lift the can then the necessary fluid pressure is a paltry 60 Pa (6 mm H2O). These limits indicate that intermediate pressures and areas could be used successfully, and that metal tubes are not necessary to withstand the operating pressure. So, recalling that the environment is dry ambient, we further practicalise by asking what other materials/manufacture might be used?
Tubes might be made from rubber hose, allowing radial expansion to prevent air leakage.
And so on. The foregoing doesn't pretend to be an exhaustive list of ideas, and the tertiary problems have not yet all been resolved - ie. telescoping tubes have not yet been fully practicalised. But we now have sufficient confidence to persevere with the underlying idea and to justify further research and development - ie. experimentation - which could lead to full practicalisation.
In no way can trashing be justified !
Note how practicalisation here is just another mini- problem solving exercise.