[Source: @cheddarbaconstudios]
A Robotic Slime That Could One Day Save Your Life [Video]
From Interesting Engineering:
In a world where robotics and medical innovation converge, a game-changing hero emerges: a slime. This isn’t your typical gooey substance; it’s a fluid-based soft robot, a blend of polymers, borax, and alcohol, capable of shifting between liquid and solid states through viscoelasticity. Tiny neodymium particles grant it magnetic control, allowing it to morph, move, and adapt at will.
But what makes this slime extraordinary is its potential to save lives. It navigates intricate spaces, stretches seven times its size, and requires no preset configurations. In medical scenarios, it can encase harmful objects, buying crucial time until professionals intervene. Its versatility extends to drug delivery and aiding surgeries, all while healing itself due to its robust hydrogen bonds.
Though it may sound like science fiction, researchers are actively exploring this slime’s limitless possibilities. With its unique blend of flexibility, adaptability, and navigation, it holds the promise of transforming healthcare and addressing critical challenges, bridging the gap between imagination and reality.
Today’s Hottest Deals: LEGO Advent Calendars, Energizer AA Batteries and AAA Batteries, Ahsoka Funko POP! Figures, and More!
For todayโs edition of โDeal of the Day,โ here are some of the best deals we stumbled on while browsing the web this morning! Please note that Geeks are Sexy might get a small commission from qualifying purchases done through our posts (as an Amazon associate or a member of other affiliate programs. As an Amazon Associate, I earn from qualifying purchases.)
–LEGO Star Wars 2023 Advent Calendar – $44.99 $40.49
–LEGO Marvel Avengers 2023 Advent Calendar – $44.99 $38.99
–LEGO Harry Potter 2023 Advent Calendar – $44.99 $41.61
–Funko Pop! Star Wars Ahsoka with Lightsabers – $12.99 $4.99 (For Prime Members)
–Funko Pop! Star Wars Hooded Ahsoka with Lightsabers – $12.99 $4.99 (For Prime Members)
–Universal Classic Monsters: Icons of Horror Collection [4K UHD] – $79.99 $31.73
–Native 1080P Projector with Wifi and Bluetooth (15000L brightness, 20000:1 high dynamic contrast, supports 4K decoding, Max 300″ Display) – $769.99 $159.99 (Clip Coupon at the Link!)
–Energizer AA Batteries and AAA Batteries, 24 Max Double A Batteries and 24 Max Triple A Batteries Combo Pack, 48 Count – $38.98 $28.32
–whall Slow Juicer, Masticating Juicer with Touchscreen – $399.99 $119.99
–Microsoft Office Professional 2021 for Windows: Lifetime License – $219.99 $29.97
–Microsoft Office Home & Business for Mac 2021: Lifetime License – $219.99 $29.97
Astronomers have learned lots about the universe โ but how do they study astronomical objects too distant to visit?
NASAโs OSIRIS-REx spacecraft flew by Earth on Sept. 24, 2023, dropping off its sample of dust and pebbles gathered from the surface of near-Earth asteroid Bennu.
Analysis of this sample will help scientists understand how the solar system formed and from what sorts of materials. Scientists will begin their analysis in the same facility that analyzed rocks and dust from the Apollo lunar landings.
As an astronomer studying how planets form around distant stars, I felt excited watching the broadcast of that Bennu sample descending to the Utah desert โ and a little envious. Those of us who study distant young solar systems canโt send robotic spacecraft to get a closer look at them, let alone grab a sample for laboratory analysis. Instead, we rely on remote observations.
But what astronomers can measure using telescopes is not what we really want to know โ instead, we calculate the properties weโre interested in studying by observing and interpreting apparent properties from afar.
Astronomersโ tools
Asteroids are like fossils โ theyโre composed of rocky material from the formation and early evolution of a solar system and they are preserved nearly unchanged. Thatโs how the pristine Bennu samples will help astronomers learn about our solar systemโs formation.
Over the past several decades, astronomers have learned that disks of gas and dust called protoplanetary disks orbit young stars. Observing these disks โ located many light years outside our solar system โ can help astronomers understand the early planet formation process, but theyโre too distant to send a sample-return mission like OSIRIS-REx to directly measure what the dust and asteroids in these systems are made of.
All that astronomers like me can do is observe those distant regions of the universe remotely, using telescopes here on Earth or in orbit near Earth. But even with limited tools and techniques, weโve still managed to learn quite a bit about them.
Distance and luminosity
The closest protoplanetary systems are a few hundred light years from the Sun, but we canโt directly measure distances that large. Instead, we have to determine distance indirectly using precise measurements of parallax โ small changes in the apparent position of the star caused by our changing perspective as Earth orbits the Sun.
Once we know their distances from Earth, we can determine another essential physical property of protoplanetary disks: their luminosities and the luminosities of their stars.
Luminosity is an objectโs power output measured in watts. The luminosity of a star like our Sun is in the hundreds of trillions of trillions of watts. Just as sunlight influences weather and the chemistry of planetary atmospheres in our solar system, the luminosity of a young star directly affects the material in its protoplanetary disk. Luminosity can alter the size and composition of dust particles that will later form asteroids and planetary cores.
But brightness does not directly indicate luminosity. The measured brightness of a star or any luminous object decreases with the square of its distance from us. We measure the apparent brightness of a star, or how bright it looks in a digital image, and then calculate its luminosity from this observed brightness and the starโs distance.
Color and temperature
Luminosity also depends on temperature โ warmer objects are usually more luminous โ but we canโt directly measure the temperatures of distant systems. Astronomers determine temperature using precise measurements of the apparent color of a star and of the gas and dust orbiting in its planet-forming disk.
The color images of celestial objects that you see from observatories like the Hubble or James Webb space telescopes are composites of multiple images taken through a series of colored filters.
For astronomers, colors are numbers describing the brightness of an object at a particular wavelength compared with its brightness at another wavelength. Warmer objects emit more blue light relative to red light, so their color looks more blue and the corresponding number is smaller. Astronomers measure color in even more detail by passing starlight through a small prism installed in the telescopeโs camera. This prism disperses the light into a spectrum.
The spectrum of light from a star and its surrounding material isnโt a smooth rainbow of color. Sharp bright and dark features in the spectra indicate the presence and relative abundances of atoms, molecules and even minerals. These chemical elements emit or absorb light in unique and recognizable combinations of colors.
Measurement and interpretation
Can you see a theme emerging? Astronomers can measure only a handful of apparent properties: brightness, color, position in the sky, shape, angular size and how each of these changes with time. These are the same properties each of us measures with our senses to navigate our surroundings in everyday life. Theyโre nothing exotic or special.
And yet everything astronomers know about distant solar systems and their formation we have derived from measurements of these familiar and unremarkable apparent properties. The rich and detailed descriptions that weโve come to expect in astronomy and astrophysics come from applying our understanding of chemistry and physics to these measurements.
The arrival of the Bennu sample is exciting because it is โreal.โ In the coming months and years, scientists will examine this dust to inform our studies not only of asteroids and interplanetary dust, but also of interstellar dust in solar systems farther afield. I am eager to see what these new details will teach us about cosmic dust, some of the primary building blocks of planets everywhere.
Luke Keller, Professor of Physics and Astronomy, Ithaca College
This article is republished from The Conversation under a Creative Commons license. Read the original article.
Amazing Illusion: Levitating While Holding a Shopping Cart in a Store [Video]
Watch as magician Xavier Mortimer floats behind a shopping cart, right under the gaze of perplexed employees while strolling through the aisles at a Walmart. The illusion appears flawless, likely achieved through a hidden rig concealed beneath his clothing.
Here’s a demo of another rig that was build to create a similar illusion:
[Via TA]
Covering Our Tracks [Comic]
[Source: @theimmortalthinktank]
Ahsoka Gets the “Honest Trailers” Treatment [Video]
Ahsoka Tano and Sabine Wren don’t want to work together, and they’ll sigh their way across two galaxies because Dave Filoni thinks you are still obsessed with the cartoons. All that and more on the least exciting Disney+ Star Wars concept since Grogu and Dust Bunnies on this week’s Honest Trailer!
[Via Screen Junkies]
Where the Line is Drawn [Comic]
[Source: @cactusfacecomics]
Mini Homemade Model of SpaceX’s Falcon 9 Model Rocket Landing Successfully [Video]
Check out this amazing video of a model rocket that emulates SpaceX’s iconic Falcon 9 rocket. It soars into the sky and then, just like the real deal, gently lands on its feet using its thruster. Pure rocketry magic!
[Via BIS]
Monty Python and the Holy Grail: Back in Cinemas For the First Time… Since the Last Time!
Never seen Monty Python and the Holy Grail on the big screen? Now is your chance! The motion picture that changed the whole history of motion pictures will soon be back in cinemas in a special new edition with up to 25% more perils! Bring your friends, and don’t forget your coconut shells!
There’s even a site listing all the theaters that will play the movie near your location!
Can’t wait to see it since the last time I saw it!