Stopping Pirates, Airplanes to High Rises and Defending Against Earthquakes in High Rises.
Here are some ways that have been invented to defend high rise buildings from problems like 911 in the future;
Systems for airplanes;
Net thrown from ring above floor say 5 stories up plus rockets to smoothly and gradually steer and slow an airliner.(click below for more)
High speed lightweight Shields or airbags on rails to intercept the impact
A puck system that intercepts either bullets around ships or larger pucks to shield if rockets.
The cause of the 911 collapse was the fire melting the structural components, not the impact. The heat of the fire built up melting the cheaper beams of modern building codes. A sort of invisibility cloak with heat for the beams has been proposed, the heat doesn't build up to high enough levels to melt the beams instead just flowing around them while also not heavy like strong beams, like lightening rods for houses. Or heat pipes and electric coolers powered by the heat to cool the fire faster..
Using part of the heat to power electric strengthening I beams, not heavy but much stronger when needed, also of use for earthquakes with just the right resilience (too stiff and it may fall as too flexible as research has found), and for general hi rise stability, ect. cheaper than a giant pendulum, and easier to build ect..
Click here for more
..
Here are some ways that have been invented to defend high rise buildings from problems like 911 in the future;
Systems for airplanes;
Net thrown from ring above floor say 5 stories up plus rockets to smoothly and gradually steer and slow an airliner.(click below for more)
High speed lightweight Shields or airbags on rails to intercept the impact
A puck system that intercepts either bullets around ships or larger pucks to shield if rockets.
The cause of the 911 collapse was the fire melting the structural components, not the impact. The heat of the fire built up melting the cheaper beams of modern building codes. A sort of invisibility cloak with heat for the beams has been proposed, the heat doesn't build up to high enough levels to melt the beams instead just flowing around them while also not heavy like strong beams, like lightening rods for houses. Or heat pipes and electric coolers powered by the heat to cool the fire faster..
Using part of the heat to power electric strengthening I beams, not heavy but much stronger when needed, also of use for earthquakes with just the right resilience (too stiff and it may fall as too flexible as research has found), and for general hi rise stability, ect. cheaper than a giant pendulum, and easier to build ect..
Click here for more
..
