Elon Musk’s DOGE minions have largely moved out of the General Services Administration. A dystopian scene of bedding and discarded kids’ toys remains.

Jurassic World Rebirth’s opening scene is perhaps its strongest. In a flashback sequence set in an experimental dinosaur breeding facility, a carelessly discarded Snickers wrapper gets sucked into a pressure-sealed door, allowing the film’s mutated D

FxGuide a mis en ligne une interview en compagne de DNEG sur les effets visuels du film Mickey 17, réalisé par Bong Joon Ho et avec Robert Pattinson dans le rôle principal. Cette comédie noire mêlant science-fiction et critique sociale met en scène u

Menu Home News Hardware Gaming Mobile Finance Deals Reviews How To Wccftech Mobile London Couple Tracks Down And Recovers £46,000 Jaguar Using Hidden AirTag After Police Fail To Act On Real-Time Location Of Stolen Vehicle Ali Salman • Jun 14, 2025 at 06:08pm EDT Apple's AirTag accessory is becoming more than just a way to find lost keys with its advanced tracking system. The accessory is unexpectedly becoming a hero when it comes to recovering stolen vehicles. In a new real-world case that highlights the AirTag's precision tracking, a London-based couple successfully located and recovered their £46,000 Jaguar E-Pace, while the police failed to take immediate action despite having real-time location data. A couple used an AirTag to track their stolen Jaguar and recovered it themselves after police delayed their response. The incident took place on June 3 in Brook Green, Hammersmith, where the couple's Jaguar was stolen from their home (via MacMagazine). Little did the thieves know, the vehicle was stashed with an AirTag, which led the couple to the location of their car in a nearby neighborhood, Chiswick. The AirTag did its job quite well and provided the couple with the location of their stolen vehicle, which was then forwarded to the Metropolitan Police. Even after the police had the location of the stolen Jaguar, the response was not what the couple was expecting. The owner of the vehicle told BBC News: “I wanted to act quite quickly as my fear was that we would find the AirTag and not the car when it was discarded on to the street without the car, so I told them that we were planning to head to the location.” Instead of taking action and sending backup right there and then, the police merely acknowledged the risky plan and advised the couple to call again if needed. The couple decided to go to the location by themselves, which was a risky move. They found the car parked on a residential street, and after bypassing the remote security systems, the couple was able to remotely unlock the car and recover it successfully. In a statement shared by the Metropolitan Police, “This investigation is ongoing, and officers met the victim on Tuesday, 10 June, as part of their inquiries.” While the story ends with a win for the victims and for the AirTags, it does raise questions about police responsiveness in technology-assisted theft cases. Apple has never marketed the AirTags as an anti-theft device and instead, it warns users not to recover stolen property due to potential safety risks. All in all, we are glad that the stolen car was recovered and the couple was safe by the end of the day. Moreover, stories like these also highlight the growing role of smart tracking accessories used in the personal security space, alongside the growing need for authorities to take measures accordingly. Subscribe to get an everyday digest of the latest technology news in your inbox Follow us on Topics Sections Company Some posts on wccftech.com may contain affiliate links. We are a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to amazon.com © 2025 WCCF TECH INC. 700 - 401 West Georgia Street, Vancouver, BC, Canada

By CHRIS McGOWAN This image of Jupiter from NASA’s James Webb Space Telescope’s NIRCam (Near-Infrared Camera) shows stunning details of the majestic planet in infrared light. (Image courtesy of NASA, ESA and CSA) Special effects have been used for decades to depict space exploration, from visits to planets and moons to zero gravity and spaceships – one need only think of the landmark 2001: A Space Odyssey (1968). Since that era, visual effects have increasingly grown in realism and importance. VFX have been used for entertainment and for scientific purposes, outreach to the public and astronaut training in virtual reality. Compelling images and videos can bring data to life. NASA’s Scientific Visualization Studio (SVS) produces visualizations, animations and images to help scientists tell stories of their research and make science more approachable and engaging. A.J. Christensen is a senior visualization designer for the NASA Scientific Visualization Studio (SVS) at the Goddard Space Flight Center in Greenbelt, Maryland. There, he develops data visualization techniques and designs data-driven imagery for scientific analysis and public outreach using Hollywood visual effects tools, according to NASA. SVS visualizations feature datasets from Earth-and space-based instrumentation, scientific supercomputer models and physical statistical distributions that have been analyzed and processed by computational scientists. Christensen’s specialties include working with 3D volumetric data, using the procedural cinematic software Houdini and science topics in Heliophysics, Geophysics and Astrophysics. He previously worked at the National Center for Supercomputing Applications’ Advanced Visualization Lab where he worked on more than a dozen science documentary full-dome films as well as the IMAX films Hubble 3D and A Beautiful Planet – and he worked at DNEG on the movie Interstellar, which won the 2015 Best Visual Effects Academy Award. This global map of CO2 was created by NASA’s Scientific Visualization Studio using a model called GEOS, short for the Goddard Earth Observing System. GEOS is a high-resolution weather reanalysis model, powered by supercomputers, that is used to represent what was happening in the atmosphere. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) “The NASA Scientific Visualization Studio operates like a small VFX studio that creates animations of scientific data that has been collected or analyzed at NASA. We are one of several groups at NASA that create imagery for public consumption, but we are also a part of the scientific research process, helping scientists understand and share their data through pictures and video.” —A.J. Christensen, Senior Visualization Designer, NASA Scientific Visualization Studio (SVS) About his work at NASA SVS, Christensen comments, “The NASA Scientific Visualization Studio operates like a small VFX studio that creates animations of scientific data that has been collected or analyzed at NASA. We are one of several groups at NASA that create imagery for public consumption, but we are also a part of the scientific research process, helping scientists understand and share their data through pictures and video. This past year we were part of NASA’s total eclipse outreach efforts, we participated in all the major earth science and astronomy conferences, we launched a public exhibition at the Smithsonian Museum of Natural History called the Earth Information Center, and we posted hundreds of new visualizations to our publicly accessible website: svs.gsfc.nasa.gov.” This is the ‘beauty shot version’ of Perpetual Ocean 2: Western Boundary Currents. The visualization starts with a rotating globe showing ocean currents. The colors used to color the flow in this version were chosen to provide a pleasing look. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) The Gulf Stream and connected currents. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) Venus, our nearby “sister” planet, beckons today as a compelling target for exploration that may connect the objects in our own solar system to those discovered around nearby stars. (Image courtesy of NASA’s Goddard Space Flight Center) WORKING WITH DATA While Christensen is interpreting the data from active spacecraft and making it usable in different forms, such as for science and outreach, he notes, “It’s not just spacecraft that collect data. NASA maintains or monitors instruments on Earth too – on land, in the oceans and in the air. And to be precise, there are robots wandering around Mars that are collecting data, too.” He continues, “Sometimes the data comes to our team as raw telescope imagery, sometimes we get it as a data product that a scientist has already analyzed and extracted meaning from, and sometimes various sensor data is used to drive computational models and we work with the models’ resulting output.” Jupiter’s moon Europa may have life in a vast ocean beneath its icy surface. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) HOUDINI AND OTHER TOOLS “Data visualization means a lot of different things to different people, but many people on our team interpret it as a form of filmmaking,” Christensen says. “We are very inspired by the approach to visual storytelling that Hollywood uses, and we use tools that are standard for Hollywood VFX. Many professionals in our area – the visualization of 3D scientific data – were previously using other animation tools but have discovered that Houdini is the most capable of understanding and manipulating unusual data, so there has been major movement toward Houdini over the past decade.” Satellite imagery from NASA’s Solar Dynamics Observatory (SDO) shows the Sun in ultraviolet light colorized in light brown. Seen in ultraviolet light, the dark patches on the Sun are known as coronal holes and are regions where fast solar wind gushes out into space. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) Christensen explains, “We have always worked with scientific software as well – sometimes there’s only one software tool in existence to interpret a particular kind of scientific data. More often than not, scientific software does not have a GUI, so we’ve had to become proficient at learning new coding environments very quickly. IDL and Python are the generic data manipulation environments we use when something is too complicated or oversized for Houdini, but there are lots of alternatives out there. Typically, we use these tools to get the data into a format that Houdini can interpret, and then we use Houdini to do our shading, lighting and camera design, and seamlessly blend different datasets together.” While cruising around Saturn in early October 2004, Cassini captured a series of images that have been composed into this large global natural color view of Saturn and its rings. This grand mosaic consists of 126 images acquired in a tile-like fashion, covering one end of Saturn’s rings to the other and the entire planet in between. (Image courtesy of ASA/JPL/Space Science Institute) The black hole Gargantua and the surrounding accretion disc from the 2014 movie Interstellar. (Image courtesy of DNEG and Paramount Pictures) Another visualization of the black hole Gargantua. (Image courtesy of DNEG and Paramount Pictures) INTERSTELLAR & GARGANTUA Christensen recalls working for DNEG on Interstellar (2014). “When I first started at DNEG, they asked me to work on the giant waves on Miller’s ocean planet [in the film]. About a week in, my manager took me into the hall and said, ‘I was looking at your reel and saw all this astronomy stuff. We’re working on another sequence with an accretion disk around a black hole that I’m wondering if we should put you on.’ And I said, ‘Oh yeah, I’ve done lots of accretion disks.’ So, for the rest of my time on the show, I was working on the black hole team.” He adds, “There are a lot of people in my community that would be hesitant to label any big-budget movie sequence as a scientific visualization. The typical assumption is that for a Hollywood movie, no one cares about accuracy as long as it looks good. Guardians of the Galaxy makes it seem like space is positively littered with nebulae, and Star Wars makes it seem like asteroids travel in herds. But the black hole Gargantua in Interstellar is a good case for being called a visualization. The imagery you see in the movie is the direct result of a collaboration with an expert scientist, Dr. Kip Thorne, working with the DNEG research team using the actual Einstein equations that describe the gravity around a black hole.” Thorne is a Nobel Prize-winning theoretical physicist who taught at Caltech for many years. He has reached wide audiences with his books and presentations on black holes, time travel and wormholes on PBS and BBC shows. Christensen comments, “You can make the argument that some of the complexity around what a black hole actually looks like was discarded for the film, and they admit as much in the research paper that was published after the movie came out. But our team at NASA does that same thing. There is no such thing as an objectively ‘true’ scientific image – you always have to make aesthetic decisions around whether the image tells the science story, and often it makes more sense to omit information to clarify what’s important. Ultimately, Gargantua taught a whole lot of people something new about science, and that’s what a good scientific visualization aims to do.” The SVS produces an annual visualization of the Moon’s phase and libration comprising 8,760 hourly renderings of its precise size, orientation and illumination. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) FURTHER CHALLENGES The sheer size of the data often encountered by Christensen and his peers is a challenge. “I’m currently working with a dataset that is 400GB per timestep. It’s so big that I don’t even want to move it from one file server to another. So, then I have to make decisions about which data attributes to keep and which to discard, whether there’s a region of the data that I can cull or downsample, and I have to experiment with data compression schemes that might require me to entirely re-design the pipeline I’m using for Houdini. Of course, if I get rid of too much information, it becomes very resource-intensive to recompute everything, but if I don’t get rid of enough, then my design process becomes agonizingly slow.” SVS also works closely with its NASA partner groups Conceptual Image Lab (CIL) and Goddard Media Studios (GMS) to publish a diverse array of content. Conceptual Image Lab focuses more on the artistic side of things – producing high-fidelity renders using film animation and visual design techniques, according to NASA. Where the SVS primarily focuses on making data-based visualizations, CIL puts more emphasis on conceptual visualizations – producing animations featuring NASA spacecraft, planetary observations and simulations, according to NASA. Goddard Media Studios, on the other hand, is more focused towards public outreach – producing interviews, TV programs and documentaries. GMS continues to be the main producers behind NASA TV, and as such, much of their content is aimed towards the general public. An impact crater on the moon. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) Image of Mars showing a partly shadowed Olympus Mons toward the upper left of the image. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) Mars. Hellas Basin can be seen in the lower right portion of the image. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) Mars slightly tilted to show the Martian North Pole. (Image courtesy of NASA/Goddard Space Flight Center Scientific Visualization Studio) Christensen notes, “One of the more unique challenges in this field is one of bringing people from very different backgrounds to agree on a common outcome. I work on teams with scientists, communicators and technologists, and we all have different communities we’re trying to satisfy. For instance, communicators are generally trying to simplify animations so their learning goal is clear, but scientists will insist that we add text and annotations on top of the video to eliminate ambiguity and avoid misinterpretations. Often, the technologist will have to say we can’t zoom in or look at the data in a certain way because it will show the data boundaries or data resolution limits. Every shot is a negotiation, but in trying to compromise, we often push the boundaries of what has been done before, which is exciting.”

When the computer or phone you’re using right now blinks its last blink and you drop it off for recycling, do you know what happens? At the recycling center, powerful magnets will pull out steel. Spinning drums will toss aluminum into bins. Copper wires will get neatly bundled up for resale. But as the conveyor belt keeps rolling, tiny specks of valuable, lesser-known materials such as gallium, indium, and tantalum will be left behind. Those tiny specks are critical materials. They’re essential for building new technology, and they’re in short supply in the U.S. They could be reused, but there’s a problem: Current recycling methods make recovering critical minerals from e-waste too costly or hazardous, so many recyclers simply skip them. Sadly, most of these hard-to-recycle materials end up buried in landfills or get mixed into products like cement. But it doesn’t have to be this way. New technology is starting to make a difference. As demand for these critical materials keeps growing, discarded electronics can become valuable resources. My colleagues and I at West Virginia University are developing a new technology to change how we recycle. Instead of using toxic chemicals, our approach uses electricity, making it safer, cleaner, and more affordable to recover critical materials from electronics. How much e-waste are we talking about? Americans generated about 2.7 million tons of electronic waste in 2018, according to the latest federal data. Including uncounted electronics, the U.S. recycles only about 15% of its total e-waste, suggests a survey by the United Nations. Even worse, nearly half the electronics that people in Northern America sent to recycling centers end up shipped overseas. They often land in scrapyards, where workers may use dangerous methods like burning or leaching with harsh chemicals to pull out valuable metals. These practices can harm both the environment and workers’ health. That’s why the Environmental Protection Agency restricts these methods in the U.S. The tiny specks matter Critical minerals are in most of the technology around you. Every phone screen has a super-thin layer of a material called indium tin oxide. LEDs glow because of a metal called gallium. Tantalum stores energy in tiny electronic parts called capacitors. All of these materials are flagged as “high risk” on the U.S. Department of Energy’s critical materials list. That means the U.S. relies heavily on these materials for important technologies, but their supply could easily be disrupted by conflicts, trade disputes, or shortages. Right now, just a few countries, including China, control most of the mining, processing, and recovery of these materials, making the U.S. vulnerable if those countries decide to limit exports or raise prices. These materials aren’t cheap, either. For example, the U.S. Geological Survey reports that gallium was priced between $220 to $500 per kilogram in 2024. That’s 50 times more expensive than common metals like copper, at $9.48 per kilogram in 2024. Revolutionizing recycling with microwaves At West Virginia University’s Department of Mechanical, Materials, and Aerospace Engineering, I and materials scientist Edward Sabolsky asked a simple question: Could we find a way to heat only specific parts of electronic waste to recover these valuable materials? If we could focus the heat on just the tiny specks of critical minerals, we might be able to recycle them easily and efficiently. The solution we found: microwaves. This equipment isn’t very different from the microwave ovens you use to heat food at home, just bigger and more powerful. The basic science is the same: Electromagnetic waves cause electrons to oscillate, creating heat. In our approach, though, we’re not heating water molecules like you do when cooking. Instead, we heat carbon, the black residue that collects around a candle flame or car tailpipe. Carbon heats up much faster in a microwave than water does. But don’t try this at home; your kitchen microwave wasn’t designed for such high temperatures. In our recycling method, we first shred the electronic waste, mix it with materials called fluxes that trap impurities, and then heat the mixture with microwaves. The microwaves rapidly heat the carbon that comes from the plastics and adhesives in the e-waste. This causes the carbon to react with the tiny specks of critical materials. The result: a tiny piece of pure, sponge-like metal about the size of a grain of rice. This metal can then be easily separated from leftover waste using filters. So far, in our laboratory tests, we have successfully recovered about 80% of the gallium, indium, and tantalum from e-waste, at purities between 95% and 97%. We have also demonstrated how it can be integrated with existing recycling processes. Why the Department of Defense is interested Our recycling technology got its start with help from a program funded by the Defense Department’s Advanced Research Projects Agency, or DARPA. Many important technologies, from radar systems to nuclear reactors, depend on these special materials. While the Department of Defense uses less of them than the commercial market, they are a national security concern. We’re planning to launch larger pilot projects next to test the method on smartphone circuit boards, LED lighting parts, and server cards from data centers. These tests will help us fine-tune the design for a bigger system that can recycle tons of e-waste per hour instead of just a few pounds. That could mean producing up to 50 pounds of these critical minerals per hour from every ton of e-waste processed. If the technology works as expected, we believe this approach could help meet the nation’s demand for critical materials. How to make e-waste recycling common One way e-waste recycling could become more common is if Congress held electronics companies responsible for recycling their products and recovering the critical materials inside. Closing loopholes that allow companies to ship e-waste overseas, instead of processing it safely in the U.S., could also help build a reserve of recovered critical minerals. But the biggest change may come from simple economics. Once technology becomes available to recover these tiny but valuable specks of critical materials quickly and affordably, the U.S. can transform domestic recycling and take a big step toward solving its shortage of critical materials. Terence Musho is an associate professor of engineering at West Virginia University. This article is republished from The Conversation under a Creative Commons license. Read the original article.

WANTED, the International Contemporary Furniture Fair’s (ICFF) show-within-a-show, has grown almost exponentially since its first iteration as WantedDesign circa 2011, evolving so much so that the platform – with its iconic yellow walls nestled into the Javits Center – has become one of America’s go-to platforms to find emerging talent, tap into an intimate creative network, and discover trends ahead of the commercial industry. The 2025 showcase provided a wealth of inspiring design, we had to share a roundup all its own… Mockinbird Studio Epic in proportion, masterfully constructed, and officially record-making. The Farsala-based Mockinbird Studio showcased their most ambitious project to date: a monumental space divider. It is the largest – and arguably most beguiling – piece of contemporary marquetry artwork in existence, entirely designed and handcrafted in their Greece studio using traditional techniques. The object blends functionality with a narrative-driven, highly-aesthetic composition for the perfect piece of collectible design. Cuff Studio Cuff Studio presented their first solo exhibition, entitled “Within,” and unveiled select pieces from their Spring 2025 furniture collection of the same name. The C Back Lounge Chair – a trade exclusive – distills some of their favorite design gestures into an elegant, barely-their structural frame then paired with a sculptural waterfall seat and back cushion. Of note are the protruding curves that seemingly reach out for a handshake and the textural, pink upholstery seen here, which echoes triangular forms used across their broader portfolio. Mary Ratcliffe Studio + Anony Presenting together for their fourth ICFF, Mary Ratcliffe Studio (MRS) and Anony collaborated on a booth filled with sleek and sculptural, architecturally-inspired design objects. Their work is elementally complementary, which lent themselves to a more honest, fulsome showcase. MRS’s monumental furniture pieces are inspired by the physicality of material play, while Anony’s lighting takes inspiration from architectural gestures. Ready To Hang Mirrored surfaces are hard to resist, especially when their design makes you feel seen – figuratively speaking. Ready To Hang’s fashionable, ready-to-wear-inspired furnishings feel like fun accessories and an extension of personal style as they approach home decor through concepts found in styling for apparel. This year marked their ICFF debut with a highly curated showcase mixing classic pieces with a few concepts yet to come. UWU Studios Typically driven by a human-centered design ethos, multidisciplinary UWU Studios has expanded their scope to include the feline experience. Their UNU Cat Dreams product is equal parts pet play and collectible design, sure to please all parties. Even aesthetes without a furry friend can still appreciate its composition, blending surfaces, textures, colors, and forms for quite unique sculptural compositions. It’s an exemplary approach that elevates everyday objects to the venerable. Estudio PM Racking up multiple awards during the show – and rightfully so – Estudio PM demonstrated how fabric waste and unwanted textiles can be recontextualized within the realms of art and home furnishings. The duo behind the initiative created totems and garment-inspired side tables with the careful layering of reclaimed cloth. Noiro Studio Hand-blown glass lamps stood on various podiums in a curious display of artisanal lighting comprising colorful bases dotted with glass and stone orbs. Each globe’s curvature represented the fabric of spacetime, with precious objects are suspended within the glass shades – a steady reminder of our weight, and also insignificance, of our existence in the world. Noiro Studio plays with themes of heft and weightlessness, continuing to keep things relative. Ridezign Ridezign offers an ode to New York City. The Tesser Collection resembles skyscrapers in miniature blocks constructing cantilevered forms in multiple configurations and colors. These lamps leverage additive manufacturing making every piece made-to-order, reducing overstock, and ultimately eliminating the need for storage. The warm diffusion of the subsequent layers of material create lovely channels of light, adding to the spectacle of the city. Koba Furniture Koba Furniture is proud to create all elements for Series 02 within their Baltimore studio – except for the drawer pulls, shares designer Sam Acuff – a testament to the respect for craft that is clearly shown here. Jauntily stocky feet meet tiny tube legs, with a nicely balanced drawer set on top. Extra points for the elevated milk crate; it adds such a nice feel to the booth. 9 & 19 9 & 19 is back this year with organic shapes and cheeky details. Who doesn’t love an easter egg in design? From inlaid squiggles to handmade tiling, this collection offers a unique blend of customization and utility while remaining approachable and fun. Hannah Via Hannah Via brings some highly welcome fiber arts representation to WANTED, her tufted lamps bringing a sense of whimsy and possibility to the show. Sporting pops of scarlet, cobalt, and bronze, a light peach background acts as a pendant for a singular Edison bulb, which cases a cozy glow in an elegant connection to the warmth of the yarn it rests upon. Sawyer Made Lovingly crafted in Woodbury, Vermont, Sawyer Made is a second-generation family of woodworkers honoring the classic stance and build of a Windsor chair, but with a few modern updates. As the arm meets the back, the angle rotates 90 degrees offering a beautiful detail absent from most traditional Windsors. Like ballet, a combination of experienced craft and innate knowledge makes the hardest work look easy. Ora House Cobalt is back in a big way with Ora House, as evidenced by their removable upholstery panels that can be switched out to reflect any style or change in local decor. Playful, soft, and sturdy, the ottoman, bench, and hutch offer a fun way to sit, stay, and store. Daniel Gruetter Daniel Gruetter is a woodworker based in Toronto, Canada. Showing an elegant credenza created entirely out of the discarded offcuts from his practice, he upends what is considered valuable on a platform that inherently places value on everything. Employing wooden hinges takes the project to another level, letting a singular material do the talking through expert craftsmanship. Reces NYC With a nod to the cobalt we spotted around the show, Reces NYC wraps up our top picks for WANTED this year with a gestural upholstered piece. Elements extend in a satisfyingly solid manner to create an interesting and distinctly luxurious look users could get lost in. Check out out the rest of Design Milk’s NYCxDESIGN coverage here!

The In-Side Collection of outdoor furniture by Thomas Heatherwick resembles an impossible shell, formed to protect a creature not from this world. The shapes warp naturally around themselves, for a surprising finish at the end: a burst of bright multicolored spots made of recycled plastic, growing in great numbers across the surface. A beautiful example of rotational molding, this collection produced for Magis brings innovative technology and imaginative design together in harmony. Following several months of testing the rotational moulding technique using a blend of two types of recycled polyethylene, Magis observed that while the exterior of the material seemed fairly standard, slicing it open exposed an unexpected, unevenly speckled interior. “The idea behind this new collection is to use waste materials and reveal their inner beauty in an unexpected way,” says Heatherwick. The thought and experimentation that went into the In-Side Collection is exemplary of Heatherwick’s style – rigorous research goes into materiality, production methods, and detailing. This collection features rippled molding on the outside, a clever use of the capabilities of rotational molding. Coupled with the colored flecks on the interior, the material is a blend of post-consumer and post-industrial recycled polyethylene, part of extensive research into the impact recycling can have on our collective waste streams. Discarded bottles can now become luxury furniture through imagination and work. Flecks gain traction on the inside of the chair, adding pops of confetti-like color in contrast to the soft, muted exterior color palette of Sage, White, and Terracotta. The collection features an armchair, sofa, and low table, all rated for outdoor use. Organic form reigns supreme, not staking any claim on the natural environment but instead blending in, adding interest and elegance to any landscape. Thomas Heatherwick is a British designer focused on the human experience. He explores architecture, urban planning, product design and interiors projects, centering the axis of his studio around originality, inventiveness, and identity. Since 1994 when his studio was established, he has challenged convention, sustainability, and a strong sense of materiality at the forefront of his work. As our world becomes more globalized, his ideals of democratic design and cleverness of craft remain evocative of another time, while his aesthetic decisions stay cutting-edge. Since 1976, Magis has been pushing the boundaries of design, striving to incorporate the values of respect, honesty, and loyalty to their work. Based in the Veneto, a region of Italy known for it’s high-quality craftsmanship and level of finish within design, they strive to employ Italian craftspeople from as close to the locale as possible. This ensures that they can maintain close relationships with suppliers, and produce as much local commerce as they can. In their Code of Ethics, rare for a furniture brand, they detail their commitment to their employees, customers, and suppliers in that order, establishing where their commitments lie overall – to their people, ensuring Magis products will be made well by respected artisans for decades to come. To learn more about the In-Side Collection by Thomas Heatherwick for Magis, head to magisdesign.com. Photography courtesy of Magis.

The Obalende bus terminus is one of Lagos’s most important transport nodes and a ‘graveyard’ for old danfos, which in Yoruba means ‘hurry’. These yellow‑painted minibuses form the backbone of Lagos’s informal transport system and are mostly second‑hand imports from the global north. Located in the heart of Lagos Island, Obalende is one of the first areas to be developed east of the lagoon that splits Lagos into two main halves: the Island and the Mainland. It receives a large portion of urban commuters daily, especially those entering Lagos Island for work. Obalende plays a critical role in the cycle of material reuse across the city. The life of a danfo does not end at retirement; it continues through a vast network of informal markets and recyclers that sustain entire communities. Their metal parts are either repurposed to fix other buses or sold as scrap at markets such as Owode Onirin. Located about 25km away on the Lagos Mainland, Owode Onirin, which means ‘money iron market’ in Yoruba, is a major hub for recycled metals. Waste collectors scour the city’s demolition sites for brass and mild steel; they find copper, bronze and aluminium in discarded vehicles. These materials are then processed and sold to companies such as African Foundries and Nigerian Foundries, as well as to local smiths who transform them into building parts, moulds and decorative objects. Sorters, welders and artisans form the backbone of this circular micro‑economy. Their labour breathes new life into discarded matter.  Lagos has a State Waste Management Authority, but it is fraught with politicking and inefficient in managing the city’s complex waste cycle. In the absence of intelligent state strategies, it falls on people to engineer solutions. They add armatures, build networks and modulate the static thresholds and borders imposed by the state. Today, these techniques and intelligences, born out of scarcity, are collectively labelled ‘informality’, a term that flattens their ingenuity.  Across the streets of Obalende and around its central roundabout, kiosks and pop‑up shops dominate the landscape. Most are constructed from materials such as timber reclaimed from collapsed buildings or fallen fascias, along with salvaged tarpaulins. Stones and concrete blocks found at demolition sites are moulded into anchors using discarded plastic paint buckets, serving as bases for umbrellas offering relief from the scorching Lagos sun. To anticipate flash flooding, many structures are raised slightly above ground on short stilts. Space, which is in short supply, is creatively repurposed to serve different functions at various times of the day; a single location might host breakfast vendors in the morning, fruit sellers in the afternoon and medicine hawkers at night. Due to its proximity to the city centre, Obalende experiences constant population shifts. Most entering the city at this node have no means of livelihood and often become salvagers. Under the curling ends of the Third Mainland Bridge, for example, a community of migrants gathers, surviving by scavenging motor parts, sometimes from old danfos, zinc roofing sheets and other materials of meagre value. Discarded mattresses, bedding and mosquito nets are repurposed as shelter beneath the noisy overpass, which becomes both workplace and home. In the absence of supportive state frameworks, communities like those in Obalende create micro‑responses to urban precarity. Their fluid, multifunctional spaces are adaptive and resilient architectures resulting from necessity, survival and material intelligence.  ‘Informality as a way of life is inherently circular in its use of space and materials’ In Lagos, the most populous city in Nigeria and one of the most populated in Africa, two thirds of the population live on less than US$1 a day, according to Amnesty International. This speaks not only to income levels but to multidimensional poverty. Unlike global cities such as Mumbai, Cape Town and Rio de Janeiro, where poorer demographics are largely confined to specific neighbourhoods at the margins, informality in Lagos is not peripheral but integral to how the city functions, defying the rigid thresholds and boundaries of formal urban planning.  Across Lagos, self‑sustaining circular economies flourish. Orile, a metal market located on the mainland, is one of the sites where discarded metals from sites in Lagos can be sold as part of a recycling system. Further out in the suburbs of Lagos, also on the mainland, is the Katangua Market, which is the biggest second‑hand clothes market in the city. In Nigeria’s largest hardware technology hub, Computer Village, just south of Lagos in Ikeja, used electrical and electronic equipment (UEEE) is sold for parts. A TRT World report notes that about 18,300 tonnes of UEEE arrive in Nigeria annually – although the number varies in other studies to as much as 54,000 tonnes smuggled in – with the majority coming from Europe, closely followed by the US and China.  Computer Village evolved into a dense network of shops, stalls and kiosks between 1998 and 2000, just before Nigeria adopted early digital cellular network technology. The market sits just minutes from the local airport and the Ikeja High Court, but its edges are fluid, spilling out from the Ikeja Underbridge. Over time, formal plots have dissolved into an evolving mesh of trade; the streets are lined with kiosks and carts, built from repurposed plywood, corrugated metal and tarpaulin, that come and go. Space is not owned but claimed, temporarily held, sublet and reshuffled.  Today, Computer Village generates an estimated US$2 billion in annual revenue. Yet most of the shops lack permanence and are constantly at risk of demolition or displacement. In March this year, over 500 shops were demolished overnight at Owode Onirin; in 2023, shopping complexes at Computer Village were torn down in a similar way. The state has continuously announced plans to relocate Computer Village to Katangua Market, with demolition of parts of Katangua Market itself making way for the move in 2020. Urban development patterns in Lagos prioritise formal sectors while ignoring self‑organised makers and traders. This contributes to spatial exclusion, where such communities are often under threat of eviction and relocation.  Discarded devices eventually make their way to landfills. Olusosun, in the very heart of Lagos, is one of Africa’s largest landfills. Over 10,000 tonnes of waste are delivered daily, and more than 5,000 scavengers live and work here, sifting through an artificial mountain of refuse in search of value: aluminium, copper, plastic, cloth. The waste stream, enlarged by the influx of used hardware and fast fashion from the global north, creates both livelihood and hazard. Recent studies have shown that most of the residents in and around the site are exposed to harmful air conditions that affect their lungs. Additionally, the water conditions around the site show infiltration of toxic substances. Scavengers have lost their lives in the process of harvesting metals from discarded electronics.  More than a landfill, Olusosun is a stage for the politics of waste in the global south. Poor regulation enables the flow of unserviceable imports; widespread poverty creates demand for cheap, second‑hand goods. The result is a fragile, and at times dangerous, ecosystem where the absence of the state makes room for informal innovation, such as space reuse and temporary architecture, material upcycling and recycling. In Olusosun, metals are often extracted, crushed and smelted through dangerous processes like open burning. Copper and gold harvested from the ashes then make their way back into products and institutions, such as the insets of bronze or aluminium in a piece of furniture that might eventually travel back to the global north. In its usual fashion, the government has promised to decommission the Olusosun site, but little has been seen in terms of an effective plan to repurpose the site under the state’s so‑called ‘advanced waste treatment initiative’. Informality as a way of life is inherently circular in its use of space and materials. It embodies adaptability, resilience and an intuitive response to economic and environmental conditions. The self‑built infrastructures in Lagos reveal the creativity and resilience of communities navigating the challenges of urban life. Now is the time for designers, policymakers and community leaders to work together and rethink urban development in a way that is more sustainable and responsive to the needs of the people who make cities thrive. The question is not whether informal economies will continue to exist, but how they can be designed into wider city planning – making them part of the solution, not the problem. Featured in the May 2025 issue: Circularity Lead image: Olympia De Maismont / AFP / Getty 2025-05-30 Reuben J Brown Share

May 28, 20257 min readWhy Is NASA Shuttering This Iconic Institute in New York City?Since 1966 NASA’s Goddard Institute for Space Studies has been at the forefront of Earth and planetary science from its location in upper Manhattan. Now a Trump administration directive is ejecting its scientists to parts unknownBy Christopher Cokinos edited by Lee BillingsPhoto of the building housing NASA's Goddard Institute for Space Studies, at the corner of Broadway and West 112th Street in New York City. Cirofono via Flickr (CC BY 2.0)In the early 1980s, then real estate developer Donald Trump famously tried to evict a group of New York City residents from a rent-controlled building that he wanted to replace with a luxury high-rise. The tenants eventually beat back the plan.Today President Trump is having more luck with NASA’s Goddard Institute for Space Studies (GISS).Ensconced on six floors of a building on Manhattan’s Upper West Side, GISS has been a small-but-mighty source of world-changing scientific research for more than a half-century. NASA scientists first moved into the building, which another federal agency leases from GISS’s institutional partner, Columbia University, in 1966. Last month, at the behest of the Trump administration, NASA officials told GISS it had to move out before the end of May. In response, more than 100 staffers have abandoned the facility, leaving its tastefully decorated halls and offices littered with boxes, papers and packing tape.On supporting science journalismIf you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.Although it may be best known to the public indirectly (its building often appeared in the hit sitcom Seinfeld as the site of “Monk’s Café”), GISS has been a leader in Earth science and climate research for decades. The work within its halls was crucial for sparking broader public awareness of anthropogenic climate change in the 1980s and has contributed to cutting-edge weather forecasting and multiple interplanetary missions, as well as the underpinnings of the past, present, and future habitability of Earth and other worlds.Yet now that rich legacy and prospects for further breakthrough research are at risk, GISS personnel say, jeopardized by the White House’s demands for notionally better government efficiency. Ironically, however, the effective eviction of GISS may well result in more costs to taxpayers rather than less.A Federal Mandate to “Institutionally Couch Surf”GISS itself has not been disbanded. But without a physical home and under the looming threat of a White House–proposed 50 percent cut to the entirety of NASA’s science for the 2026 federal fiscal year, the Institute’s future can only be called uncertain. Many of its staff are now operating as academic nomads—working remotely and scrambling to secure office space at other locations in the city.“We’re being told to institutionally couch surf,” says one senior GISS researcher, who, like many others in this story, asked not to be identified because of the possibility of reprisal.In April Makenzie Lystrup, director of NASA’s Goddard Space Flight Center, which technically includes GISS, e-mailed GISS personnel about the eviction, explaining it was part of White House efforts to review government leases.Sources familiar with the situation, however, tell Scientific American the termination was specifically set in motion earlier this spring by an employee of the U.S. DOGE Service (a newly minted federal entity that was, until recently, led by the world’s richest man, Elon Musk). That employee, the sources say, approached NASA administrators, who ultimately agreed to the move out of fear of losing their jobs.A GISS scientist recounts the sudden events: “On Wednesday afternoon of April 23, NASA GISS workers were informed that there would be an all-hands Thursday morning meeting (the next day) with folks from HQ ... the topic of which was not mentioned,” the scientist says. “The next morning, we were promptly told ... the decision was made to vacate our building by the end of May and that the decision was made as part of a broader DOGE assessment of federal leased spaces. They also mentioned that this decision was made by NASA within just a few days.” According to this scientist, the move deadline changed several times. This account is supported by others who spoke to Scientific American.Multiple GISS personnel consulted for this story say there will be no cost savings because the $3-million-per-year lease on the space remains in place through 2031. That lease is between Columbia and the General Services Administration (GSA), a federal agency that is tasked with providing workspace for some governmental employees. Even if a new tenant is found, the lease is likely to remain in force because terminating it will result in major financial penalties per the leasing agreement. The lease, they say, is about half the current commercial rate in New York City, and for now, the GSA continues to pay rent.“Columbia is fully committed to our longstanding collaboration with NASA and the scientific research at the Goddard Institute for Space Studies,” said Millie Wert, a spokesperson for the university, when reached for comment for this article.The suddenness of the move has stunned GISS researchers and personnel, one of whom calls the decision “idiocy.”“One hundred and thirty scientists must move all their books and office equipment,” the senior researcher told Scientific American shortly after GISS received the eviction notice. “A library and $400,000 in tech must be moved out. We also have historical items here: Where are we supposed to put them?” Much of this material is reportedly going into storage at warehouse space in New Jersey.Another staffer adds that “we have no information about what will be discarded.... Ironically, many of us decided not to accept new furniture [recently] because our existing 1950s furniture is perfectly good—and that would save the taxpayer money.”As GISS employees packed their belongings, they saw workers dismantling a recently renovated conference room and a brand-new security system, according to documents obtained by Scientific American from the departing staff. The documents also note that computers and servers are “at risk of damage while being moved in haste.”Two protest letters against the eviction that were sent from the International Federation of Professional & Technical Engineers (IFPTE) to particular congressional representatives and senators, respectively, noted that a recent renovation of GISS is nearly complete at a cost of more than $6 million. In the letter to members of the House of Representatives, IFPTE called the dispersal of staff and equipment “blatantly wasteful financially.”An Institutional “Diaspora”GISS is globally renowned for tracking and predicting climate conditions with GISTEMP (GISS Surface Temperature Analysis), along with other datasets and modeling that involve planetary science beyond Earth and that are focused on weather, fire and agriculture on our world. GISS also has played roles in missions across the solar system, the discovery of the big bang’s all-sky afterglow, and more.According to firebrand climate researcher and former GISS director James Hansen, now retired from NASA, the institute was deliberately located in New York City because physicist Robert Jastrow, its founder, wanted a NASA center that was not a closed campus. Being in the heart of a city with academia and industry outside the door has been an asset to GISS, according to Hansen and others. The process of developing GISS began modestly, with “Jastrow ... interviewing people in an office over a furniture store in Silver Spring, Md.,” Hansen says. “The ‘GISS Formula’ ... was to have a minimum government staff, which allowed the research focus to change with time as the need dictated.”One such focus was the high levels of carbon dioxide on Venus, which Hansen was studying decades ago. That led to his trailblazing work on what was then called “the greenhouse effect,” including his famous testimony before Congress on human-driven climate change in 1988.Climate modeling, says a different senior GISS researcher, “is what drove the development of supercomputing, [and] we continue to use the same Earth climate modeling to understand Venus and Mars and constrain their potential habitability.” From climate feedback loops to ocean heat transport, GISS is at the center of important science, its researchers say.But the GISS dispersal, along with other disruptions, such as frozen grants and proposed science budget cuts at NASA, the National Science Foundation and the National Oceanic and Atmospheric Administration, among other agencies, “represent a monumental step backwards,” a GISS scientist says, “not just for understanding a climate that will still change due to human activities ... but also for operational weather prediction that saves lives due to forecast and warnings, pollution and contamination assessments.”GISS’s current director Gavin Schmidt tells Scientific American that “the issue of whether to do something with the GISS lease goes back a year or two due to a shift in how these things are paid for at NASA.... [The agency] commissioned an external panel to look at [this], and they concluded (last year) that the status quo was the most efficient plan. I am not privy to who decided to raise that idea again in recent weeks.”Other GISS researchers complain that, to their knowledge, no administrators above Schmidt went to bat for keeping the institute in its building.“I think there was pushback initially at HQ,” Schmidt says, “but by the time we were told at GISS, it was a done deal.”Concerns now include the lack of in-person interaction and a general loss of support for postdoctoral researchers. “It’s pretty dire,” one scientist says.“I’m now watching people who have dedicated their entire careers to understanding the most pressing issues of our time deciding whether they might have to leave the place they’ve built their life around,” says Alessandra Quigley, an early-career scientist, who is affiliated with GISS. “This is the only positive takeaway I can find: the fact this administration cares so much about ending climate science just demonstrates how important [this science] is, and I hope the public comes to see that, too.”While Lystrup called GISS’s work “critical” and promised support during the transition in her e-mail, which was obtained by Scientific American , Schmidt says that “people are shell-shocked and anxious—and that is not conducive to doing high-quality science.”He adds that “we will nonetheless push through and try and make the GISS diaspora function as well as it can. We have been contacted with many offers to help.”Asked for comment by Scientific American, a NASA spokesperson referred to the situation as “part of the administration’s government-wide review of leases to increase efficiency.” While NASA “seeks and evaluates options for a new space for the GISS team,” the spokesperson added, the institute’s work remains “significant” and “critical.”But at least one GISS researcher isn’t convinced. Angry that the agency didn’t do more to stop the eviction and even had tasked officials with frequent check-ins to ensure the move was underway, the researcher says, simply, “NASA is the new thug.”