ESIST.Tech/tv/ Recommends | Physics | CERN: The Big Bang Machine | Https://esist.tech/tv/

Researchers discover that chaos makes carbon materials lighter and stronger

In the quest for more efficient vehicles, engineers are using harder and lower-density carbon materials, such as carbon fibers, which can be manufactured sustainably by “baking” naturally occurring soft hydrocarbons in the absence of oxygen. However, the optimal “baking” temperature for these hardened, charcoal-like carbon materials remained a mystery since the 1950s when British scientist Rosalind Franklin, who is perhaps better known for providing critical evidence of DNA’s double helix structure, discovered how the carbon atoms in sugar, coal, and similar hydrocarbons, react to temperatures approaching 3,000 degrees Celsius (5,432 degrees Fahrenheit) in oxygen-free processing. Confusion over whether disorder makes these graphite-like materials stronger, or weaker, prevented identifying the ideal “baking” temperature for more than 40 years.

Fewer, more chaotically arranged carbon atoms produce higher-strength materials, MIT researchers report in the journal Carbon. They find a tangible link between the random ordering of carbon atoms within a phenol-formaldehyde resin, which was “baked” at high temperatures, and the strength and density of the resulting graphite-like carbon material. Phenol-formaldehyde resin is a hydrocarbon commonly known as “SU-8” in the electronics industry. Additionally, by comparing the performance of the “baked” carbon material, the MIT researchers identified a “sweet spot” manufacturing temperature: 1,000 C (1,832 F).

Read more.

Let it go ❄

(snowflake designs by Tomoko Fuae, Joseph Wu, Shuzo Fujimoto, and Dennis Walker)

#snowflakes #origami #paperart #papercraft #paper #art #craft #design #sculpture #daily #illustration #instaart #instaartist #snow #snowflake #winter #ice #frozen #elsa #papersnowflakes

math textbooks are the best

thanks for the helpful commentary

https://www.forbes.com/forbes/welcome/?toURL=https://www.forbes.com/sites/startswithabang/2017/05/08/hubble-views-the-final-frontier-for-dark-matter/&refURL=&referrer=

Geometric Animations / 170402

Four Planet System in Orbit, Directly Imaged | Planetary Landscapes Credit: Many Worlds

This evocative movie of four planets more massive than Jupiter orbiting the young star HR 8799 is a composite of sorts, including images taken over seven years at the W.M. Keck observatory in Hawaii.

Read more here.

Hubble Views The Final Frontier For Dark Matter

“This phenomenon of gravitational lensing stretches galaxies into streaks and arcs, magnifying them, and creating multiple images. It also enables us to reconstruct the mass distribution of the cluster, revealing that it’s mostly due to dark matter.”

When you look out at the distant Universe, you can see all sorts of things: stars, galaxies, clusters of galaxies, going as far back into the distant past as our telescopes can image. But where you have the greatest concentrations of mass, an extreme phenomenon emerges: that of gravitational lensing. Any foreground objects lying behind that mass will have their light stretched, magnified and distorted by the intervening matter. Recently, as part of the Hubble Frontier Fields program, the telescope followed-up on galaxy cluster Abell 370, and revealed the most spectacular gravitational lensing signal ever seen in a galaxy cluster. Most importantly, it provides some very strong evidence not only for dark matter’s existence, but for its presence distinct from any galaxies at all.

Come get the full story in images, videos, and no more than 200 words on this edition of Mostly Mute Monday!

Picture of the longest Solar Eclipse we observed so far. It lasted up to six minutes and 39 seconds, a duration that will not be surpassed until 2132.

js

Moss Green Halite

Locality:  Sieroszowice Mine, Lower Silesia, Poland