Metallic GlassMetallic glass or amorphous metal is a metal that when molten will be rapidly cooled to disorganize particles on an atomic scale. Since the particles are stable but unorganized, the metal or alloy will return kinetic energy to whatever it hits causing it to bounce or travel further and longer. Originally used for rockets and space discoveries, this metal is very flexible and is suited to low-temperature environments due to the disorganization of the particles, which do not tend to freeze as quickly as other metals would. It is also used to make new discoveries in space. NASA has built a device to capture solar winds and the possible particles they contain to help better understand our sun. This is a great way to make new discoveries and also to understand the limitations of metallic glass. It's called Project Genesis. This project was launched and returned to earth unharmed but unfortunately as it fell into the sky, into the atmosphere, no parachute came out as intended and the device crash-landed in the deserts of Utah in 2004. This brought samples to learn more about the universe and our specific solar system. Most of the collectors, made of various metal alloys, were shattered due to their thickness. Fortunately, the particles were not on top of the metal alloys, but were below the surface, so it was still possible to collect data or evidence about our existence and how the big bang happened. Scientists are still studying particles today and with advanced technologies, this creates a completely new way of thinking and could lead to a phenomenal breakthrough in the discovery of our universe. This amorphous metal could change the world... middle of paper... allic glass mesh molded into an open-ended tube. This could help continue blood flow and minimize the chance of the stricture returning to the same area. This will be a revolutionary new breakthrough in biomedicine and could very well save many lives. This discovery has proven to be very beneficial to society and the world because it is a scientific way to correct errors and fill holes that previous materials did not fill. It has proven to be very effective in serving its original purpose and has also been effective in solving other problems such as biomedical and physical (sports) ones. This is a big step forward because if there are any challenges that need to be solved with a strong, flexible material, then this is it. Imagine if planes were built with this metal technique, they would be lighter and stronger at the same time and would not freeze so quickly.