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Blog – Page 6427

Amazing.

Zaha Hadid Architects and ETH Zurich have built a 3D-printed concrete footbridge named Striatus in Venice that is freestanding and assembled without mortar.

Named Striatus, the 16-metre-long bridge was built by the computation and design team at Zaha Hadid Architects, known as ZHACODE, in collaboration with the Block Research Group (BRG) at Swiss university ETH Zurich, incremental3D and Holcim. It was constructed from 53 hollow blocks each printed from 500 layers of printed concrete.

The structure is an unreinforced arched bridge that uses compression and gravity to hold its form. The studios arranged the 3D-printed wedge-shaped elements, known as voussoirs, to form arches and vaults.

Continue reading “Zaha Hadid Architects creates unreinforced 3D-printed concrete bridge at Venice” | >

What do you think?

The idea of using spaceships to travel from one point on the Earth’s surface to another has been around since at least the 1960s, but the cost and complexity of the idea have meant it’s been little more than a pipe dream.

In principle, the approach isn’t that different from the one used by intercontinental ballistic missiles. A rocket is used to blast the payload, be it a nuclear weapon or a passenger spaceship, on a big looping trajectory into space before re-entering the atmosphere on the other side of the planet.

The approach could make it possible to travel between continents in under an hour, and now Japan has outlined its vision for how to make the idea a reality. In a roadmap unveiled at an expert panel earlier this month, its science ministry put forward a two-phase plan it predicts could support a 5 trillion yen ($46 billion) market for spaceships departing from and arriving in Japan.

Continue reading “Japan Wants to Build Intercontinental Passenger Spaceships by the Early 2040s” | >

Physicists at CERN have discovered an exotic new particle that’s quite charming. Known as Tcc+, the particle belongs to a rare class called tetraquarks, and its unusual composition makes it the longest-lived exotic hadron found so far.

Matter is made up of fundamental particles called quarks, which come in six “flavors”: up, down, strange, charm, top and bottom. These quarks group together in different ways to make up different types of matter – baryons like protons and neutrons are made up of several quarks, while mesons are formed from quarks paired with antiquarks, their antimatter equivalents.

Baryons are usually comprised of two or three quarks, but exotic baryons made up of four or five have been discovered in recent years, after being theorized for decades. Tcc+ is one of these unusual particles with four quarks, known as a tetraquark.

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Few people seem to realise how devastating this is, not only for human wellbeing – we need insects to pollinate our crops, recycle dung, leaves and corpses, keep the soil healthy, control pests, and much more – but for larger animals, such as birds, fish and frogs, which rely on insects for food. Wildflowers rely on them for pollination. As insects become more scarce, our world will slowly grind to a halt, for it cannot function without them.

A strong argument can be made that humans ought to farm more insects as an alternative to pigs, cows or chickens. Farming insects is more energy efficient and requires less space and water. They are a healthier source of protein, being high in essential amino acids and lower in saturated fats than beef, and we are much less likely to catch a disease from eating insects (think bird flu or Covid-19). So if we wish to feed the 10–12 billion people who are projected to be living on our planet by 2050, then we should be taking the farming of insects seriously as a healthier source of protein and a more sustainable option to conventional livestock.

While western societies may not eat insects, we do regularly consume them at one step removed in the food chain. Freshwater fish such as trout and salmon feed heavily on insects, as do game birds like partridge, pheasant and turkey.

Aside from their role as food, insects perform a plethora of other vital services in ecosystems. For example, 87% of all plant species require animal pollination, most of it delivered by insects. The colourful petals, scent and nectar of flowers evolved to attract pollinators. Without pollination, wild flowers would not set seed, and most would eventually disappear. There would be no cornflowers or poppies, foxgloves or forget-me-nots. But an absence of pollinators would have a far more devastating ecological impact than just the loss of wild flowers. Approximately three-quarters of the crop types we grow also require pollination by insects, and if the bulk of plant species could no longer set seed and died out, then every community on land would be profoundly altered and impoverished, given that plants are the basis of every food chain.

Continue reading “The insect apocalypse: ‘Our world will grind to a halt without them’” | >

The future of energy storage is getting better. Welcome salt batteries! cheaper & more abundant than lithium!

It is claimed to have an energy density of up to 160 Wh/kg, which is a far cry from the density offered by lithium batteries of up to 285 Wh/kg, but is nothing to sneeze at in the world of sodium batteries. It can also be charged to 80 percent capacity in 15 minutes at room temperature, and maintain 90 percent of its capacity in temperatures of-20 °C (−4 °F).

A cheap and abundant material like salt might have plenty to offer the world of science, and one field where it could have game-changing effects is battery chemistry. Leveraging salt could help us avoid much of the cost and difficulty in sourcing scarcer lithium, and Chinese giant CATL is looking to lead the charge by launching its first commercial sodium-ion battery.

Like lithium batteries that power smartphones, laptops and much of the modern world, sodium batteries also shuttle ions between two electrodes as the device is charged and discharged. But sodium ions present a few problems that lithium ions don’t. The ions are larger in size and are prone to creating impurities that can cut the battery life short. In addition, they don’t offer anywhere near the energy density of tried and trusted lithium.

Continue reading “Chinese giant CATL launches a commercial salt-based battery for EVs” | >

Prior to 1970, bulletproof vests were pretty iffy, with a history extending as far as the 1500s when there were attempts to make metal armor that was bulletproof. By the 20th century there was ballistic nylon, but it took kevlar to produce garments with real protection against projectile impact. Now a 3D printed nanomaterial might replace kevlar.

A group of scientists have published a paper that interconnected tetrakaidecahedrons made up of carbon struts that are arranged via two-photon lithography.

We know that tetrakaidecahedrons sound like a modern invention, but, in fact, they were proposed by Lord Kelvin in the 19th century as a shape that would allow things to be packed together with minimum surface area. Sometimes known as a Kelvin cell, the shape is used to model foam, among other things.

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