A second detection system will make use of the faint glow caused by the collisions of shower
particles with air molecules during cosmic ray air showers.
When those relativistic electrons
collided with air molecules, they generated gamma rays and lower energy electrons that were the main electric current carrier that produced the strong radio pulse before the visible lightning.
When high energy cosmic rays enter the Earth's atmosphere, they
interact with air molecules producing a cascade of secondary particles which propagate through the atmosphere in a so - called air shower.
If this turns out to be correct, once the fuel molecule
combines with the air molecule, how does combustion occur from there?Does the fuel molecule just rapidly release energy, thus the nearby air molecule start moving rapidly, and push on the piston head to produce power?
Imagine taking a balloon full of air molecules, somehow tagging them so you could see them and then releasing them into a
room with no air molecules, noted co-author and UCSB / Google researcher Pedram Roushan.
Once this mixture of fuel droplets, and air is inside the cylinder, and a spark occurs do the air molecules gain kinetic energy, then collide into the atomised fuel, and the individual fuel molecules break apart thus turning fuel from a liquid to a gas (vaporisation), then those fuel molecules
combines with the air molecule, then combustion occurs?
It channels some of these particles toward the poles, where they can collide
with air molecules and release energy in the form of light, producing brightly colored auroras.