The weather and the atmosphere have a tremendous impact on business and industry, governments, and societies, and researchers in the Department of Meteorology and Atmospheric Science aim to better understand this dynamic set of systems. From modeling the intricacies of snowfall to understanding how tornadoes and hurricanes take shape to detailing the atmospheric chemistry of the rainforest, researchers cover the gamut of the interactions between the atmosphere and the land.
The Alliance for Education, Science, Engineering and Development in Africa (AESEDA) and the Department of African American Studies at Penn State are sponsoring the Black History Month PSU Scholar's Program. Four panel discussions, highlighting scholarship by Penn State faculty members of African descent, will take place from Feb. 16 to 22 in Foster Auditorium of Pattee Library on the University Park campus.
Strong updrafts -- currents of rising air -- in severe thunderstorms are a prerequisite for hail formation. The width of these updrafts may be an indicator of an increased hail threat, according to Penn State meteorologists.
When Penn State decided to convert its two power plants from their historic use of coal as a source of energy to natural gas, there was concern about radon emissions. Although radon is known to exist in natural gas, now Penn State research indicates that it does not escape from these two power plants in harmful amounts.
Chris Forest, associate professor of climate dynamics at Penn State, was co-author of a National Academies of Sciences, Engineering and Medicine report recommending new methods for estimating the social cost of carbon emissions worldwide. According to the report, new practices would strengthen the scientific basis, provide greater transparency, and improve characterization of uncertainties over the current estimates.