A new study on how comets evolve reveals that deep space objects like Kuiper Belt Object 486958 Arrokoth may be time capsules containing ancient ices from billions of years ago.
The annual event brings hundreds of students from the Providence area to College Hill for a day of interactive workshops and discussions about science and college access.
Astronomers and enthusiasts across campus are gearing up for the big eclipse, with educational and viewing events at Brown and trips to prime watch spots in the path of totality.
The novel approach helps advance wireless sensor technology and paves the way for one day using large populations of inconspicuous sensors in implantable and wearable biomedical microdevices.
Advancing a commitment to accessible robotics education, the Ph.D. student is researching how to simultaneously control multiple drones and teaching others how to build and operate them.
Named a member of the academy’s Class of 2024, the accomplished biomedical engineer and academic leader received the honor in recognition of her work in nanotechnology and therapeutic delivery.
The grant will help Daniel Harris establish a more complete understanding of particles at interfaces, and share new experimental designs and methods that others can adapt for use in related research.
Brown research team finds small unmapped lakes in the Arctic are far less abundant than previously thought, greatly reducing the cumulative methane emissions they were thought to contribute to Earth’s atmosphere.
Environmental Studies 0110 is both an introductory course on environmental change in the 21st century and a hands-on lab where students engage with how local communities and the natural environment intersect.
A high-grade air quality sensor installed on Brown’s campus is providing detailed measurements of carbon dioxide and methane concentrations in Providence, painting a clearer picture of local air quality.
Researchers found that one of the most promising electrolytes for designing longer lasting lithium batteries has complex nanostructures that act like micelle structures do in soaped water.
Software developed by Brown researchers can translate expressive and complex plain-worded instructions into behaviors a robot can carry out, all without needing thousands of hours of training data.
Experiments by a Brown-led research team investigated belly flop mechanics and found surprising insights about air-to-water impacts that could be useful for marine engineering applications.
The inaugural discussion in a series convened by Brown’s Office of the Provost and Data Science Institute detailed the history of artificial intelligence and new questions generative AI is raising.
Called VRoxy, the software has the potential to make hands-on collaboration between people working remotely and people working in physical spaces more seamless, regardless of differences in room size.
Simulations produced by a Brown-led research team offer evidence that Venus once had plate tectonics — a finding that opens the door for the possibility of early life on the planet and insights into its history.
In a ceremony at the White House, Biden awarded Suresh, a professor at large at Brown University’s School of Engineering, the nation’s highest scientific honor.
On the eve of Nobel Week 2023, Kosterlitz looked back on his experience after winning the 2016 Nobel Prize in Physics, shared what he’s working on now and how he’s thinking about the future.
The hydrogel is designed to balance pH levels in a malignant tumor and act as a delivery system for one of the most effective cancer fighting drugs, potentially addressing critical problems faced in current cancer treatment.
The research can help unlock answers around how cells assemble themselves during embryonic development and what happens when this fundamental process goes awry.
A study led by Brown University scientists begins to address a longstanding question in condensed matter physics on whether disorder mimics or destroys the quantum liquid state in a prominent compound.
As part of an annual excursion geared toward incoming graduate students in Brown’s Department of Earth, Environmental and Planetary Sciences, about 20 students joined Brown faculty on a Save the Bay tour.
The rising Brown University junior and pre-med concentrator was eager to dive into field research to study how frog species respond to stimuli in their environment.
A new study that began as a student training exercise at Brown reveals genetic and other biological mechanisms that allow a parasitic worm to manipulate its host.
Using a brain-computer interface, a clinical trial participant who lost the ability to speak was able to create text on a computer at rates that approach the speed of regular speech just by thinking of saying the words.
A team of Brown-led engineers show that a sphere held almost completely under flowing water induces drag forces several times greater than if it were fully submerged, detailing new and interesting physics of drag resistance.
SBUDNIC, built by an academically diverse team of students, was confirmed to have successfully reentered Earth’s atmosphere in August, demonstrating a practical, low-cost method to cut down on space debris.
A new in-depth analysis of sea ice motion in the fastest-warming part of the globe shows how Arctic Ocean sea ice responds to different ocean currents and reveals that the seafloor plays a crucial role.
The project, supported by the National Science Foundation, will focus on creating a set of tools and convening experts to address climate change related challenges faced by communities along the New England coast.
On the upper floor of 85 Waterman Street in Providence sits the conservatory, an 1,800-square-foot refuge inside Brown’s Plant Environmental Center that is open to all.
A Brown University alumnus will lead the investigation for a lunar lander mission to study volcanic activity on the Moon, a mission first proposed by a Brown researcher and Brown-affiliated scientists.
Inside Brown’s Prince Laboratory, the engineering Ph.D. student is delving deeper into his passion for flight and working to solve one of the biggest challenges of drone aerodynamics.
The Brown Design Workshop is the University’s go-to makerspace where its members can use the vast array of tools and machines to create almost anything they dream up.
A detailed analysis of the dietary habits of elephants showed surprising variation from meal to meal, which could have important ramifications for wildlife protection and conservation strategies.
On the Brown University campus, NASA Administrator Bill Nelson met with researchers and students engaged in nation's planetary science exploration and STEM education efforts.
A Brown University-led research team explains in a new study how gullies on the slopes of Martian craters could have formed by on-and-off periods of meltwater from ice on and beneath the planet’s surface.
A team of Brown brain and computer scientists developed a new approach to understanding computer vision, which can be used to help create better, safer and more robust artificial intelligence systems.
Baylor Fox-Kemper, co-author of a new study looking at how climate scientists communicate risk, explains why prompting urgent action on climate change is often so difficult despite the dire consequences.
Developed by a team of Brown-led researchers, Pleobot is a krill-inspired robot offering potential solutions for underwater locomotion and ocean exploration, both on Earth and moons throughout the solar system.
Fulvio Domini and Brenda Rubinstein have been awarded Fulbright fellowships that offer opportunities for cross-continental research, collaboration and scholarship.
At the end of her first academic year as dean, Tejal Desai reflects on what she learned and describes how Brown’s School of Engineering is building on distinctive strengths to advance its academic enterprise.
A new imaging technique opens a path toward long-term study of blood vessels in aging brains and could help predict neurodegenerative diseases decades before symptoms begin.
The teams were among 28 selected this year through DEPSCoR, which is designed to strengthen basic research infrastructure at higher education institutions and propel forward science in areas important to U.S. defense.
An international team of researchers led by Brown scientists is among five teams selected by NASA to study the moon in an effort to help the space agency’s lunar missions.
By observing spin structure in “magic-angle” graphene, a team of scientists led by Brown University researchers have found a workaround for a long-standing roadblock in the field of two-dimensional electronics.
Fluid mechanics researchers from Brown University and the University of Toulouse found that surfactants give the celebratory drink its stable and signature straight rise of bubbles.
Responsible for organizing demonstrations designed to illustrate complex concepts in physics, Angella Johnson plays an essential role in enhancing students’ academic experiences.