LEADER 03438oam 2200541K 450 001 9910969184103321 005 20190503073449.0 010 $a9780262347822 010 $a0262347822 035 $a(CKB)4100000008415571 035 $a(MiAaPQ)EBC5787902 035 $a(OCoLC)1083097672 035 $a(OCoLC-P)1083097672 035 $a(MaCbMITP)11704 035 $a(PPN)238406512 035 $a(FR-PaCSA)88870815 035 $a(FRCYB88870815)88870815 035 $a(EXLCZ)994100000008415571 100 $a20190121d2019 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aGarage /$fOlivia Erlander, Luis Ortega Govela 210 1$aCambridge :$cMIT Press,$d2019. 215 $a1 online resource (224 pages) 311 08$a9780262038348 311 08$a026203834X 327 $aIntroduction -- The Wright history of the garage -- The attached garage -- Domestication of the garage -- Birth of the entrepreneurial garage -- Garageification of space -- Apple garage -- Reality distortion -- Deprogrammed garage -- Safe space. 330 $aA secret history of the garage as a space of creativity, from its invention by Frank Lloyd Wright to its use by start-ups and garage bands. Frank Lloyd Wright invented the garage when he moved the automobile out of the stable into a room of its own. Steve Jobs and Steve Wozniak (allegedly) started Apple Computer in a garage. Suburban men turned garages into man caves to escape from family life. Nirvana and No Doubt played their first chords as garage bands. What began as an architectural construct became a cultural construct. In this provocative history and deconstruction of an American icon, Olivia Erlanger and Luis Ortega Govela use the garage as a lens through which to view the advent of suburbia, the myth of the perfect family, and the degradation of the American dream. The stories of what happened in these garages became self-fulfilling prophecies the more they were repeated. Hewlett-Packard was founded in a garage that now bears a plaque: The Birthplace of Silicon Valley. Google followed suit, dreamed up in a Menlo Park garage a few decades later. Also conceived in a garage: the toy company Mattel, creator of Barbie, the postwar, posthuman representation of American women. Garages became guest rooms, game rooms, home gyms, wine cellars, and secret bondage lairs, a no-commute destination for makers and DIYers--surfboard designers, ski makers, pet keepers, flannel-wearing musicians, weed-growing nuns. The garage was an aboveground underground, offering both a safe space for withdrawal and a stage for participation--opportunities for isolation or empowerment. 606 $aGarages$xSocial aspects$zUnited States 606 $aDomestic space$zUnited States$xHistory$y20th century 606 $aSuburban life$zUnited States$xHistory$y20th century 606 $aArchitecture and society$zUnited States$xHistory$y20th century 615 0$aGarages$xSocial aspects 615 0$aDomestic space$xHistory 615 0$aSuburban life$xHistory 615 0$aArchitecture and society$xHistory 676 $a728/.980973 700 $aErlanger$b Olivia$01792770 702 $aOrtega Govela$b Luis 801 0$bOCoLC-P 801 1$bOCoLC-P 906 $aBOOK 912 $a9910969184103321 996 $aGarage$94331795 997 $aUNINA LEADER 05261nam 2200613 a 450 001 9911020318303321 005 20200220134654.0 010 $a1-280-82237-6 010 $a9786610822379 010 $a0-470-12068-1 010 $a0-470-12067-3 035 $a(CKB)1000000000327277 035 $a(EBL)287305 035 $a(OCoLC)437176738 035 $a(SSID)ssj0000159881 035 $a(PQKBManifestationID)11155624 035 $a(PQKBTitleCode)TC0000159881 035 $a(PQKBWorkID)10158869 035 $a(PQKB)11355330 035 $a(MiAaPQ)EBC287305 035 $a(PPN)158314727 035 $a(EXLCZ)991000000000327277 100 $a20060915d2007 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aFundamentals of environmental sampling and analysis$b[electronic resource] /$fChunlong (Carl) Zhang 210 $aHoboken, N.J. $cWiley-Interscience$dc2007 215 $a1 online resource (458 p.) 300 $aDescription based upon print version of record. 311 $a0-471-71097-0 320 $aIncludes bibliographical references and index. 327 $aFundamentals of Environmental Sampling and Analysis; Contents; Preface; ACKNOWLEDGMENTS; ABOUT THE AUTHOR; 1. Introduction to Environmental Data Acquisition; 1.1 Introduction; 1.1.1 Importance of Scientifically Reliable and Legally Defensible Data; 1.1.2 Sampling Error vs. Analytical Error During Data Acquisition; 1.2 Environmental Sampling; 1.2.1 Scope of Environmental Sampling; 1.2.2 Where, When, What, How, and How Many; 1.3 Environmental Analysis; 1.3.1 Uniqueness of Modern Environmental Analysis; 1.3.2 Classical and Modern Analytical and Monitoring Techniques; References 327 $aQuestions and Problems2. Basics of Environmental Sampling and Analysis; 2.1 Essential Analytical and Organic Chemistry; 2.1.1 Concentration Units; 2.1.2 Common Organic Pollutants and Their Properties; 2.1.3 Analytical Precision, Accuracy, and Recovery; 2.1.4 Detection Limit and Quantitation Limit; 2.1.5 Standard Calibration Curve; 2.2 Essential Environmental Statistics; 2.2.1 Measurements of Central Tendency and Dispersion; 2.2.2 Understanding Probability Distributions; 2.2.3 Type I and II Errors: False Positive and False Negative; 2.2.4 Detection of Outliers; 2.2.5 Analysis of Censored Data 327 $a2.2.6 Analysis of Spatial and Time Series Data2.3 Essential Hydrology and Geology; 2.3.1 Stream Water Flow and Measurement; 2.3.2 Groundwater Flow in Aquifers; 2.3.3 Groundwater Wells; 2.4 Essential Knowledge of Environmental Regulations; 2.4.1 Major Regulations Administrated by the U.S. EPA; 2.4.2 Other Important Environmental Regulations; References; Questions and Problems; 3. Environmental Sampling Design; 3.1 Planning and Sampling Protocols; 3.1.1 Data Quality Objectives; 3.1.2 Basic Considerations of Sampling Plan; 3.2 Sampling Environmental Population 327 $a3.2.1 Where (Space) and When (Time) to Sample3.2.2 Obtain Representative Samples from Various Matrices; 3.3 Environmental Sampling Approaches: Where and When; 3.3.1 Judgmental Sampling; 3.3.2 Simple Random Sampling; 3.3.3 Stratified Random Sampling; 3.3.4 Systematic Sampling; 3.3.5 Other Sampling Designs; 3.4 Estimating Sample Numbers: How Many Samples are Required; References; Questions and Problems; 4. Environmental Sampling Techniques; 4.1 General Guidelines of Environmental Sampling Techniques; 4.1.1 Sequence of Sampling Matrices and Analytes; 4.1.2 Sample Amount 327 $a4.1.3 Sample Preservation and Storage4.1.4 Selection of Sample Containers; 4.1.5 Selection of Sampling Equipment; 4.2 Techniques for Sampling Various Media: Practical Approaches and Tips; 4.2.1 Surface Water and Wastewater Sampling; 4.2.2 Groundwater Sampling; 4.2.3 Soil and Sediment Sampling; 4.2.4 Hazardous Waste Sampling; 4.2.5 Biological Sampling; 4.2.6 Air and Stack Emission Sampling; References; Questions and Problems; 5. Methodology and Quality Assurance/Quality Control of Environmental Analysis; 5.1 Overview on Standard Methodologies 327 $a5.1.1 The U.S. EPA Methods for Air, Water, Wastewater, and Hazardous Waste 330 $aAn integrated approach to understanding the principles of sampling, chemical analysis, and instrumentation This unique reference focuses on the overall framework and why various methodologies are used in environmental sampling and analysis. An understanding of the underlying theories and principles empowers environmental professionals to select and adapt the proper sampling and analytical protocols for specific contaminants as well as for specific project applications. Covering both field sampling and laboratory analysis, Fundamentals of Environmental Sampling and Analysis