Located in a charming community in West Virginia's northern panhandle is West Liberty State College, the oldest institution of higher learning in the Mountain State. The school was chartered by the State of Virginia as an academy in 1837 and has seen its share of changes since that time. Arguably the foremost change arrived in 1863 when West Virginia became the 35th state in the Union, thereby making the college older than the state. The school took its name from the community in which it resides, which, at the time of the American Revolution, was the frontier settlement farthest west of the Appalachian Mountains and therefore appropriately named "West Liberty." Since that time, West Liberty State College has been organized and reorganized as a normal school, a state teacher's college, and, finally, a state college. It has maintained its stated mission "to launch our graduates into community, work, and academic environments ready to be viable contributors with skills and knowledge needed to meet future opportunities and challenges." West Liberty State College celebrates the history and traditions of the school, spotlighting academic, social, and athletic events over the past 163 years.
A practical handbook for chemists performing bond forming reactions, this book features useful information on the synthesis of common functional groups in organic chemistry. • Details modern functional group synthesis through carbon-heteroelement (N, O, P, S, B, halogen) bond forming reactions with a focus on operational simplicity and sustainability. • Summarizes key and recent developments – which are otherwise scattered across journal literature – into a single source • Contains over 100 detailed preparations of common functional groups • Included 25 troubleshooting guides with suggestions and potential solutions to common problems. • Complements the text in enhanced ebook editions with tutorial videos where the author provides an introduction to microwave assisted chemistry
A comprehensive reference on state-of-the-art risk assessment methodologies for drinking water Risk Assessment for Chemicals in Drinking Water discusses the major steps and goals in risk assessments and suggests ways to improve the methodologies and accuracy, while consolidating up-to-date information on the current principles and practices in one authoritative reference. After an enlightening overview of risk assessment practices and regulatory guidelines, it: Includes descriptions of the use of variability analysis, exposure analysis, physiologically based pharmacokinetics, and modeling for both cancer and non-cancer endpoints Describes the practices of major organizations, including the U.S. EPA, Health Canada, World Health Organization, and California Office of Environmental Health Hazard Assessment Includes complete chapters on risk assessment for essential nutrients, arsenic, chloroform, and perchlorate Explains how to address susceptible sub-populations, including the elderly and infants and children, in risk assessments Covers the potential of using genomic and proteomic screens Addresses recent advances, emerging issues, and future challenges With contributions and perspectives from leading scientists, this is the definitive resource for health and environmental scientists, toxicologists, risk assessors and managers, regulators, consultants, and other professionals responsible for the safety of drinking water.
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