00798nam0-22002891i-450-990001062220403321000106222FED01000106222(Aleph)000106222FED0100010622220000920d1955----km-y0itay50------baengMathematical Interpretation of Formal SystemsTh. Skolem ... [et al.]AmsterdamNorth-Holland1955VIII, 113 p.22 cmLogicaRicorsività160Skolem,Thoralf A.46731ITUNINARICAUNIMARCBK9900010622204033217-0373691FI1FI1Mathematical Interpretation of Formal Systems340232UNINAING0102184oam 2200469 450 991070404970332120151102094604.0(CKB)5470000002437158(OCoLC)927298706(OCoLC)995470000002437158(EXLCZ)99547000000243715820151102d2015 ua 0engurcn|||||||||rdacontentrdamediardacarrierSimulation of groundwater flow and chloride transport in the "1,200-foot" sand with scenarios to mitigate saltwater migration in the "2,000-foot" sand in the Baton Rouge Area, Louisiana /by Charles E. Heywood, John K. Lovelace, and Jason M. GriffithVersion 1.1, September 2015.Reston, Virginia :U.S. Department of the Interior, U.S. Geological Survey,2015.1 online resource (85 unnumbered pages) color illustrations, color mapsScientific investigations report ;2015-5083Title from title screen (viewed Oct. 28, 2015)."Prepared in cooperation with the Capital Area Groundwater Conservation Commission; Louisiana Department of Transportation and Development, Public Works and Water Resources Division; and the City of Baton Rouge and Parish of East Baton Rouge."Includes bibliographical references (pages 67-69).Groundwater flowLouisianaComputer simulationGroundwaterLouisianaBaton RougeSaltwater encroachmentLouisianaBaton RougeGroundwater flowComputer simulation.GroundwaterSaltwater encroachmentHeywood Charles E.1409183Lovelace John K.Griffith Jason M.Geological Survey (U.S.),GPOGPOGPOBOOK9910704049703321Simulation of groundwater flow and chloride transport in the "1,200-foot" sand with scenarios to mitigate saltwater migration in the "2,000-foot" sand in the Baton Rouge Area, Louisiana3543450UNINA