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200 00$aWebs of words$b[electronic resource] $enew studies in historical lexicography /$fedited by John Considine
210   $aNewcastle upon Tyne $cCambridge Scholars Pub.$d2010
215   $a1 online resource (264 p.)
300   $aDescription based upon print version of record.
311   $a1-4438-1952-2 
320   $aIncludes bibliographical references and index.
327   $aTABLE OF CONTENTS; INTRODUCTION; CHAPTER ONE; CHAPTER TWO; CHAPTER THREE; CHAPTER FOUR; CHAPTER FIVE; CHAPTER SIX; CHAPTER SEVEN; CHAPTER EIGHT; CHAPTER NINE; CHAPTER TEN; ABBREVIATIONS; BIBLIOGRAPHY; CONTRIBUTORS; INDEX
330   $aWebs of Words: New Studies in Historical Lexicology brings together ten papers on aspects of the history of words and vocabulary, which address aspects of Chinese, Czech, Dutch, English (including Caribbean varieties), German, Italian, Maori, Persian, Portuguese, Russian, and other languages. In the first four essays, focussing on pre-1800 material, Karel Kucera and Martin Stluka's opening essay discusses the plotting of the relative historical frequency of common words, drawing on their wor...
606   $aHistorical lexicology
615  0$aHistorical lexicology.
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181   $2rdacontent
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200 10$aClimate change /$fKaufui Vincent Wong
210  1$aNew York, [New York] (222 East 46th Street, New York, NY 10017) :$cMomentum Press,$d2016.
215   $a1 online resource (xvi, 195 pages) $cillustrations
225 1 $aEnvironmental engineering collection,$x2375-3633
311   $a1-60650-847-4 
320   $aIncludes bibliographical references and index.
327   $a1. Introduction --
327   $a2. Climate change and theories -- 2.1 Introduction -- 2.2 Milankovitch theory -- 2.3 Sunspot cycle -- 2.4 Sea surface temperature and pressure oscillations in the Pacific Ocean -- 2.5 Sea surface temperature and pressure oscillations in the Atlantic Ocean -- 2.6 Discussion and conclusion -- References --
327   $a3. The second law of thermodynamics and heat discharge to the environment by human activities -- 3.1 Background -- 3.2 Discussion and proof -- 3.3 Conclusion -- References --
327   $a4. Greenhouse effect and climate change -- 4.1 Background -- 4.2 Understanding electromagnetic radiation -- 4.3 Planck's law and radiated energy -- 4.4 Greenhouse effect -- 4.5 Characteristics of a greenhouse gas -- 4.6 Evidence of global climate changes -- References --
327   $a5. Anthropogenic heat release into the environment -- 5.1 Introduction and statement -- 5.2 Hypothesis of method and the method -- 5.3 Heat based on world energy consumption -- 5.4 Heat from net electricity generation -- 5.5 Heat from oil refineries -- 5.6 Heat from garbage incineration -- 5.7 World output of carbon dioxide -- 5.8 Heat from formation of sulfur dioxide from combustion -- 5.9 Heat from animal bodies -- 5.10 Discussion and conclusion -- 5.11 Nomenclature -- References --
327   $a6. Climate change and all evidences of global warming -- 6.1 Introduction -- 6.2 Mean temperature changes -- 6.3 Arctic ice caps -- 6.4 Wildlife and extinction -- 6.5 Weather patterns -- 6.6 Solutions -- References --
327   $a7. Mitigation and adaptation responses to sea level rise -- 7.1 Introduction -- 7.2 Literature about rising seas -- 7.3 Mitigation responses -- 7.4 Adaptation responses -- 7.5 Discussion and conclusion -- References --
327   $a8. Freshwater discharges into the oceans -- 8.1 Background -- 8.2 Lower and higher latitudes -- 8.3 Groundwater discharge and anthropogenic contributions -- References --
327   $a9. Wealth of the oceans -- 9.1 Introduction -- 9.2 Current status -- 9.3 Literature survey -- 9.4 Research and development -- 9.5 Discussion and conclusion -- References --
327   $a10. Forests and jungles brake climate change -- 10.1 Photosynthesis -- 10.2 Costa Rica -- 10.3 Nicaragua -- 10.4 Haiti -- 10.5 The Amazon jungle -- 10.6 Indonesia -- 10.7 Discussion and conclusion -- References --
327   $a11. Atmospheric carbon dioxide removal via technology -- 11.1 Introduction -- 11.2 Carbon dioxide removal -- 11.3 Biochar -- 11.4 Artificial trees -- 11.5 Enhanced weathering -- 11.6 Bio-energy with carbon capture and storage -- 11.7 Carbon dioxide capture "trapping" procedures -- 11.8 Carbon dioxide sequestration procedures -- 11.9 Media for biological systems -- 11.10 Production of biofuel -- 11.11 Discussion and conclusion -- References --
327   $a12. Use of satellite images for observational and quantitative analysis of urban heat islands around the world -- 12.1 Introduction -- 12.2 Urban heat island effect -- 12.3 Landsat -- 12.4 Image selection -- 12.5 Thermal images -- 12.6 Quantitative differentiation -- 12.7 Discussion and conclusion -- References -- Thermal images of cities analyzed -- Urban-rural differential images of cities analyzed --
327   $a13. Climate change aggravates the energy-water-food nexus -- 13.1 Introduction -- 13.2 Energy-water-food nexus -- 13.3 The Himalayas -- 13.4 The effect of climate change on glaciers -- 13.5 The effect of climate change on the Indus River -- 13.6 The effect of climate change on the South Asian monsoons -- 13.7 Recommendations to enhance energy, water, food security -- 13.8 Discussion and conclusion -- References --
327   $a14. Innovations related to hydrology in response to climate change, a review -- 14.1 Introduction -- 14.2 Agricultural demands -- 14.3 Solar drip irrigation -- 14.4 Wastewater reuse -- 14.5 Optimal resource management -- 14.6 Nanotechnology -- 14.7 Conventional wastewater treatment -- 14.8 Membrane bioreactors -- 14.9 Biofilters -- 14.10 Groundwater -- 14.11 Comparison of MBRs and AS plants -- 14.12 Discussion and conclusion -- References --
327   $a15. A balanced view -- Index.
330 3 $aClimate Change is a collection of a number of papers as well as chapters about the science of the subject. This collection is meant to inflame and excite conversation among engineers, scientists, and society at large. It would serve as a catalyst for a three-credit course, as a relatively new engineering subject, for both engineering and nonengineering university students. As university education develops to better prepare future leaders to appreciate science, technology, engineering, and mathematics, engineering courses for a mix of engineering and nonengineering majors are essential and so is the requirement for worthy textbooks. This monograph intends to be one of the useful tools available on this timely topic. The wide range of topics includes climate change and theories, the second law of thermodynamics, the global greenhouse effect, anthropogenic heat release, evidence around us owing to environmental change, sea level rise, jungles and forests, heat islands, atmospheric carbon dioxide removal via technology, nanotechnology, other innovations in response to climate change, and the energy-water-food nexus.
410  0$aEnvironmental engineering collection.$x2375-3633
606   $aClimatic changes
608   $aLibros electronicos.
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610   $aanthropogenic heat release
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610   $aenergy-water-food nexus
610   $aenvironment
610   $agreenhouse effect
610   $aheat islands
610   $ajungles
610   $ananotechnology
610   $asea level rise
610   $asun
610   $atechnology
610   $athermodynamics
610   $awater
610   $aweather
615  0$aClimatic changes.
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