To diminish or even stop a
mosquito killer lamp bee swarm in-flight as it is attempting to attack a man you've to be mindful not to eliminate the man. And you must realize just how insect swarms fly. And therefore an online think tank began discussing this subject at length. How can these swarms stay aloft? And what kinds of airflows & aerodynamics does the team use?
A think tank member states; "You brought up the idea once more regarding the dynamics of the swarm as a characteristic of air motion or air flow family member to the middle of the swarm."
Well think about a Helicopter will circular airflows away from the rotor cutting blades.
Air hits ground and has not to visit bunches up and also the helicopter takes off as it pushes of the environment it bunches up underneath the person of its.
Next we need to check out the wing plans of the insects, is there a method to interrupt the airflow over the wings? Take it out or result in the swarm to crash land? Effectively in that regard then this is of interest as well to the theme of wing design; Next we have to consider the airflows and Insect wing efficiencies ,. What else have researchers learned on this particular subject? There are several great white papers on these things.
When we learn all we can about the bugs and the way they fly and the way their swarm operates now we look for vulnerable weaknesses in their phone system to disrupt them and so
prevent them from killing humans. And so, now the think tank is able to look at this in 2006.