Keri Valentine, an associate professor of mathematics education at West Virginia, has turned to Pac-Man and Picasso as new ways of engaging students in math learning.
Emerging open-source programming language Julia is designed to be fast and easy to use. Since it is particularly suited for numerical applications, scientists are using it to explore the challenges in transitioning to all-renewable power generation. Decarbonization implies a radical restructuring of power grids, which will become even more complex, so new computational tools are needed. In Chaos, researchers describe a software package they built to enable the simulation of general dynamical systems on complex networks.
By adding behavioral components to an infectious disease model, Brown University researchers have developed a new modeling approach that captures the peaks and valleys in new COVID-19 cases seen over the past 16 months.
The Mathematics and Computer Sciences Division of the Council on Undergraduate Research announces the 2021 recipients of its Faculty Mentor Awards, which honor mentors for their success in mentoring undergraduate researchers.
In network science, the famous "friendship paradox" describes why your friends are (on average) more popular, richer, and more attractive than you are. But a slightly more nuanced picture emerges when we apply mathematics to real-world data.
An intern about to start a Science Undergraduate Laboratory Internship (SULI) at PPPL and another University of Texas-Dallas student kicked off their summer with a friendly online chat with U.S. Energy Secretary Jennifer Granholm about their plans for the summer.
A team of scientists from the Moscow Institute of Physics and Technology and the Tupolev Kazan National Research Technological University is developing a mathematical apparatus that could lead to a breakthrough in network security. The results of the work have been published in the journal Mathematics.
Discretization is the process of converting continuous models and variables, such as wind speed, into discrete versions to make equations that are compatible with computer analysis. Energy consistent discretization ensures that the method does not have any inaccurate sources of energy that can lead to unstable and unrealistic simulations. In this research, scientists provided a discretization for equations used by global models of the Earth’s atmosphere.
A new study by the University of Georgia revealed that more college students change majors within the STEM pipeline than leave the career path of science, technology, engineering and mathematics altogether.
Researchers report a theoretical way of mimicking thermal objects or making objects invisible to thermal measurements. And it doesn’t require a Romulan cloaking device or Harry Potter’s invisibility cloak.
In her May 12 webcast as part of the Perimeter Institute Public Lecture Series, Emily Riehl will explore the fascinating mathematics providing solutions to a matchmaker’s dilemma.
On Wednesday, May 5 at 7 pm ET, Perimeter Institute presents a special public talk by Harvard University’s L. Mahadevan, who will explain how the intersections of physics, biology, and mathematics are unveiling the amazing complexity of life.
The U.S. Department of Energy (DOE) today announced $17.3 million for college internships, research opportunities, and research projects that connect talented science, technology, engineering, and math (STEM) students and faculty with the world-class resources at DOE’s National Laboratories.
Computational chemist Samantha Johnson, who is searching for combinations to bolster energy future, is among the PNNL scientists preparing to move into the Energy Sciences Center. The new $90 million, 140,000-square-foot facility, is under construction on the PNNL campus and will accelerate innovation in energy research using chemistry, materials science, and quantum information sciences to support the nation’s climate and clean energy research agenda.
Mathematicians and engineers at the University of Utah have teamed up to show how ultrasound waves can organize carbon particles in water into a sort of pattern that never repeats. The results, they say, could result in materials called “quasicrystals” with custom magnetic or electrical properties.
During a virtual briefing held by the Women in STEM Caucus and The Science Coalition, Notre Dame's Patricia Clark said that women in science are being pushed past the point of no return due to the pandemic and longstanding structural barriers — threatening permanent damage to their careers.
An international team of interdisciplinary researchers has identified mathematical metrics to characterize the fragility of financial markets. Their paper "Network geometry and market instability" sheds light on the higher-order architecture of financial systems and allows analysts to identify systemic risks like market bubbles or crashes.
These findings clearly demonstrate how the cooperative areas of the brain responsible for reading skill are also at work during apparently unrelated activities, such as multiplication, suggesting that reading, writing and arithmetic, the foundational skills informally identified as the three Rs, might actually overlap in ways not previously imagined, let alone experimentally validated.
What is the origin of black holes and how is that question connected with another mystery, the nature of dark matter? Dark matter comprises the majority of matter in the Universe, but its nature remains unknown.
Researchers have developed a new quantum version of a 150-year-old thermodynamical thought experiment that could pave the way for the development of quantum heat engines.
In presentations at the American Association for the Advancement of Science’s annual meeting, researchers argued that mathematics can help explain and predict those breakdowns, potentially offering new ways of treating the systems to prevent or fix them when things go wrong.
Scientists have used cutting-edge research in quantum computation and quantum technology to pioneer a radical new approach to determining how our Universe works at its most fundamental level.
Irvine, Calif., Feb. 17, 2020 — An interdisciplinary team of biologists and mathematicians at the University of California, Irvine has developed a new tool to help decipher the language cells use to communicate with one another. In a paper published today in Nature Communications, the researchers introduce CellChat, a computational platform that enables the decoding of signaling molecules that transmit information and commands between the cells that come together to form biological tissues and even entire organs.
A research professor gives a “shout out” to comedian Stephen Colbert. His motivation? Colbert previously referred to mathematical equations as the devil’s sentences and an unnatural commingling of letters and numbers – the worst being the quadratic equation – an infernal salad of numbers, letters and symbols. In response, the professor suggests that mathematics education needs to be enlivened so that students will recognize that this discipline is not merely a necessary evil, but a vibrant, exciting and fascinating subject.
In a new article featured on this month’s cover of Cancer Research, Moffitt Cancer Center researchers, in collaboration with Oxford University, report results from their study using mathematical modeling to show that cell turnover impacts drug resistance and is an important factor that governs the success of adaptive therapy.
Using AI and computer automation, Technion researchers have developed a “conjecture generator” that creates mathematical conjectures, which are considered to be the starting point for developing mathematical theorems. They have already used it to generate a number of previously unknown formulas.
Thirty funded postdoctoral scholarships announced by Queen’s University Belfast are set to provide a unique opportunity to explore the challenges of Artificial intelligence (AI) for every area of science and society.
Students who attend the Georgia Prekindergarten Program are more likely to achieve in mathematics than those who do not attend pre-K, according to a new study by the University of Georgia.
People now have access to better real-time information about COVID-19 infection and transmission rates, but they still have to decide what is safe to do. A new model co-authored by mathematician John McCarthy at Washington University in St. Louis helps to contend with the uncertainty.
Greater sports participation among Aboriginal and Torres Strait Islander children is linked with better academic performance, according to new research from the University of South Australia.
A £20 million investment to champion innovation and nurture the greatest minds in mathematical sciences across the UK has been awarded today to the Heilbronn Institute for Mathematical Research (HIMR).
A forthcoming research paper by Johns Hopkins Carey Business School Assistant Professor Robert Mislavsky, a marketing expert, looks at a little-examined area of probability forecasting.
An interdisciplinary team led by faculty at the McKelvey School of Engineering has developed a model to help navigate the delicate line between maintaining the economy and limiting the spread and mortality rate of COVID-19.
Mathematicians have used machine learning to develop a new model for measuring poverty in different countries that junks old notions of a fixed 'poverty line'.
A new mathematical method developed by Cornell University researchers can inject fairness into the fraught process of political redistricting – and proves that it takes more than good intent to create a fair and representative district.
A workshop hosted by Rutgers mathematician Alex Kontorovich will ask, among other things, what a famous M. C. Escher illustration would look like in 1,001 dimensions. Welcome to the world of "hyperbolic reflection groups."