X-raying rocks reveals their carbon-storing capacity
New research by MIT geophysicists could assist efforts to remove carbon from the atmosphere and store it underground.
Tackling industry’s burdensome bubble problem
MIT researchers uncovered the physics behind bubble-removing membranes that could improve bioreactors, chemical production, and more.
Polar weather on Jupiter and Saturn hints at the planets’ interior details
New research may explain the striking differences between the two planets’ polar vortex patterns.
MIT researchers demonstrate ship hull modifications to cut fuel use
Wedge-shaped vortex generators reduce drag in ship hulls, which could advance decarbonization for the shipping industry.
Lightning-prediction tool could help protect the planes of the future
The new approach maps aircraft sections most vulnerable to lightning, including on planes with experimental designs.
New prediction model could improve the reliability of fusion power plants
The approach combines physics and machine learning to avoid damaging disruptions when powering down tokamak fusion machines.
Island rivers carve passageways through coral reefs
Research shows these channels allow seawater and nutrients to flow in and out, helping to maintain reef health over millions of years.
Study helps pinpoint areas where microplastics will accumulate
Biofilms deposited by living organisms reduce the accumulation of small particles, while areas of bare sand can be microplastics hotspots.
Why are some rocks on the moon highly magnetic? MIT scientists may have an answer
A large impact could have briefly amplified the moon’s weak magnetic field, creating a momentary spike that was recorded in some lunar rocks.
Exploring new frontiers in mineral extraction
Professor Thomas Peacock’s research aims to better understand the impact of deep-sea mining.
Hundred-year storm tides will occur every few decades in Bangladesh, scientists report
With projected global warming, the frequency of extreme storms will ramp up by the end of the century, according to a new study.
Mathematicians uncover the logic behind how people walk in crowds
The findings could help planners design safer, more efficient pedestrian thoroughfares.
Study: Tuberculosis relies on protective genes during airborne transmission
The findings provide new drug targets for stopping the infection’s spread.
High-speed videos show what happens when a droplet splashes into a pool
Findings may help predict how rain and irrigation systems launch particles and pathogens from watery surfaces, with implications for industry, agriculture, and public health.
Engineers turn the body’s goo into new glue
They combined a blend of slimy and sticky proteins to produce a fast-acting, bacteria-blocking, waterproof adhesive for use in biomedical applications.