MIT researchers have developed a new injectable material that can deliver medication through cartilage and could one day be used to help reverse osteoarthritis, reports Katie Camero for The Boston Globe. Camero explains that the new material “can penetrate deep into the tissue, delivering drugs that can potentially help the chondrocytes heal cartilage.”
Reporting for WBUR’s CommonHealth, Carey Goldberg highlights new classroom kits developed by MIT researchers that allow kids to learn and experiment with the building blocks of DNA. "I just think it's really important that microbiology education is accessible for everyone," says graduate student Ally Huang, "and that everyone, regardless of their resources, has access to things like this."
Two months after its launch, the TESS satellite has already identified two new exoplanet candidates, reports Mary Beth Griggs for Popular Science. “The team is excited about what TESS might discover next,” explains Prof. Sara Seager, who is serving as the deputy science director for the mission.
The MIT-developed TESS satellite has sent back its first batch of images of the southern sky from its quest to identify nearby exoplanets, reports writes Chris Ciacci for Fox News. Ciacci notes that the resulting images are “nothing short of incredible.”
Axios reporter Andrew Freeman writes that the TESS satellite has captured its first images of the southern sky. “This swath of the sky’s southern hemisphere includes more than a dozen stars we know have transiting planets based on previous studies from ground observatories,” explains MIT’s George Ricker, TESS’ principal investigator.
Smithsonian reporter Emily Matchar highlights how MIT researchers have developed a new system that enables data sharing between underwater and airborne devices. Prof. Fadel Adib explains that the technology could be used to “study marine life and have access to a whole new world that is still pretty much out of our reach today.”
Fast Company reporter Mark Wilson writes that MIT researchers have developed a new tool for computer-aided drafting software that can optimize the design for any product. Wilson explains that the tool could “help designers optimize their existing processes–and, crucially, deconstruct what works and what doesn’t, sooner.”
Prof. Fadel Abid speaks with IEEE Spectrum reporter Michael Koziol about a new system his research group developed to enable communication between underwater sources and the air. “We’re very interested in how deep and how high you can go,” says Adib. “Even from a theoretical perspective, we don’t even know what the limits are.”
FOX News reporter Jamie Rogers writes that MIT researchers have developed a new system that “helps solve a longstanding problem in wireless communication – how to send data directly from a submarine to a plane or drone.”
MIT researchers have developed a new system that allows data to be transmitted between underwater and airborne devices, according to the BBC News. The system could enable submarines to communicate with planes, and in the future the device could “help planes or drones detect the location of a submerged ‘black box’ flight recorder.”
Gizmodo reporter Ryan Mandelbaum writes that by studying ancient quasars, MIT scientists have uncovered evidence supporting quantum entanglement, the concept that two particles can become linked despite their distance in space and time. “We’ve outsourced randomness to the furthest quarters of the universe, tens of billions of light years away,” says Prof. David Kaiser.
Popular Mechanics reporter Avery Thompson describes a new method developed by MIT researchers to send signals between the water and the air by using sound waves to create detectable vibrations at the water’s surface. Thompson explains that the new technology could eventually make “exploring and living under the waves much easier.”
Engadget reporter Jon Fingas writes that MIT researchers have developed a new wireless device that allows data to be transmitted from an underwater source to the air. Fingas explains that the system could allow submarines to “send their findings directly to aircraft (including drones) circling above while remaining safely underwater, and without using boats as intermediaries.”
Space.com reporter Chelsea Gohd writes that MIT researchers have used the light emitted by two ancient quasars to provide evidence of quantum entanglement, the theory that two particles can become linked across space and time. The researchers used ancient quasars to see if, “the correlation between particles can be explained by classical mechanics stemming from earlier than 600 years ago.”
Writing for Motherboard, Daniel Oberhaus highlights how MIT researchers have used light emitted by quasars billions of years ago to confirm the existence of quantum entanglement. Oberhaus explains that the findings suggest entanglement occurs “because if it didn’t exist the universe would somehow have to have ‘known’ 7.8 billion years ago that these MIT scientists would perform these experiments in 2018.”