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Aug 19, 2020

Google Will Solve Your Kids’ Math Homework. That’s a Good Thing

Posted by in categories: biotech/medical, mathematics

Google has announced a new technology, powered by an acquisition called Socratic, that will let students take photos of their math homework in order to get the solutions. Google says it wants the Lens-powered technology to help parents and caretakers who are homeschooling, likely for the first time, as a result of the global COVID-19 pandemic.

Aug 19, 2020

This Very Realistic Fake Leather Is Made From Mushrooms, Not Cows

Posted by in category: futurism

Circa 2018


Bolt Threads–which also makes synthetic spider silk to use in clothes–is debuting a handbag made from mycelium, the root structure of mushrooms.

[Photo: Bolt Threads]

Aug 19, 2020

Meet the Mushrooms That Could Build a House

Posted by in categories: biotech/medical, food, media & arts

Bay Area based artist-inventor and amateur mycologist Phil Ross has an international patent pending on a method of producing fungus as a sustainable construction material. It may be surprising to hear that a biodegradable, durable, and non-toxic building material is on sale in the vegetable aisle at the supermarket. However, it’s not the tasty caps that Ross is after, but the root-like fibers of mushrooms form an enormous underground tangle called mycelium. Dried mycelium forms a lightweight mold and water resistant fire-proof material that is an effective insulator. It is also very sturdy stuff. Bob Engels of Gourmet Mushrooms notes, “Hardened steel blades on equipment at our farm need regular attention following their encounters with these massed threads of hyphae.”

Ross reported that multiple saw blades and metal files were destroyed while shaping the five hundred mycelium bricks he grew into an archway. The archway was a 6×6 foot sculpture titled Mycotectural Alpha, and was likely the first man-made structure made entirely out of mushrooms. Others have taken notice of the potential of fungus—a new start-up called Evocative Design producing mycelium alternatives to styrofoam and insulation material has received grants from the National Science Foundation, the Environmental Protection Agency, and the Department of Agriculture.

Ross’s “biotechnical” artwork encompasses drawings, paintings, sculptures, prototypes, and extensive materials research. Over the past 15 years he has been experimenting with fungus, growing and shaping mushrooms in sterile laboratory-like environments, even learning to make his own air filters to provide the necessary clean air. He says mycelium bricks can be grown in about a week from a mixture poured into a mold, but the more organic-looking mushroom sculptures that are created by adding or subtracting gas or air from their growing environment can take years to create. the artist explains how the “myotecture” bricks are made:

Aug 19, 2020

Bacteria can defuse dangerous chemical in Passaic River

Posted by in categories: biological, chemistry

Bacteria that can help defuse highly toxic dioxin in sediments in the Passaic River—a Superfund hazardous waste site—could eventually aid cleanup efforts at other dioxin-contaminated sites around the world, according to Rutgers scientists.

Their research, published in the journal Environmental Science & Technology, needs further work to realize the full potential of the beneficial bottom-dwelling microbes.

“The bacteria-driven process we observed greatly decreases the toxicity of ,” said senior author Donna E. Fennell, a professor who chairs the Department of Environmental Sciences in the School of Environmental and Biological Sciences at Rutgers University–New Brunswick.

Aug 19, 2020

A Norwegian Company is Transforming Deserts Into Farmland

Posted by in categories: solar power, sustainability

Circa 2015


Solar power plants in Qatar and Jordan, not far from the sea, are powering desalination systems that irrigate plants in and around greenhouses.

Aug 19, 2020

Chris Monroe: Realizing Ion-Trap Quantum Computers to Solve Unsolvable Problems

Posted by in categories: computing, finance, quantum physics

An international leader in quantum computing, architect of the U.S. National Quantum Initiative, and member of the National Academy of Sciences, Chris Monroe will join longtime long-distance collaborators at Duke to build practical quantum computers for use in fields from finance to pharmaceuticals.

Aug 19, 2020

Scientists Discovered an Unexplained ‘Heartbeat’ of Bright Energy in Space

Posted by in categories: particle physics, space

Another potential explanation is that the heartbeat is illuminated by more diffuse and unstructured outflows of gas and particles generated by the disk’s precession. These outflows are not as concentrated and luminous as the jets, but they could potentially ripple out to Fermi J1913+0515 and light it up in this unique way.

The team is in the midst of collecting follow-up observations with the IRAM 30m millimeter radio telescope in Spain that might constrain the origins of the strange gamma ray heartbeat.

“We discovered the source, and discovered its periodicity, but we do not know what it means or how it is produced, so we need more observations to continue the study,” Li said.

Aug 19, 2020

Hemp fibres ‘better than graphene’

Posted by in categories: energy, food, sustainability

Circa 2014


The waste fibres from hemp crops can be transformed into high-performance energy storage devices, scientists say.

They “cooked” cannabis bark into carbon nanosheets and built supercapacitors “on a par with or better than graphene” — the industry gold standard.

Continue reading “Hemp fibres ‘better than graphene’” »

Aug 19, 2020

AI automatic tuning delivers step forward in quantum computing

Posted by in categories: information science, quantum physics, robotics/AI

Researchers at Oxford University, in collaboration with DeepMind, University of Basel and Lancaster University, have created a machine learning algorithm that interfaces with a quantum device and ‘tunes’ it faster than human experts, without any human input. They are dubbing it “Minecraft explorer for quantum devices.”

Classical computers are composed of billions of transistors, which together can perform complex calculations. Small imperfections in these transistors arise during manufacturing, but do not usually affect the operation of the computer. However, in a quantum computer similar imperfections can strongly affect its behavior.

In prototype semiconductor quantum computers, the standard way to correct these imperfections is by adjusting input voltages to cancel them out. This process is known as tuning. However, identifying the right combination of voltage adjustments needs a lot of time even for a single quantum . This makes it virtually impossible for the billions of devices required to build a useful general-purpose quantum computer.

Aug 19, 2020

Biomorphic batteries could provide 72x more energy for robots

Posted by in categories: drones, robotics/AI, space

This approach to increasing capacity will be particularly important as robots shrink to the microscale and below—scales at which current stand-alone batteries are too big and inefficient.

“Robot designs are restricted by the need for batteries that often occupy 20% or more of the available space inside a robot, or account for a similar proportion of the robot’s weight,” said Nicholas Kotov, the Joseph B. and Florence V. Cejka Professor of Engineering, who led the research.

Continue reading “Biomorphic batteries could provide 72x more energy for robots” »