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Wildlife in the Anthropocene : Conservation after Nature
Elephants rarely breed in captivity and are not considered domesticated, yet they interact with people regularly and adapt to various environments.Too social and sagacious to be objects, too strange to be human, too captive to truly be wild, but too wild to be domesticated—where do elephants fall in our understanding of nature?In Wildlife in the Anthropocene, Jamie Lorimer argues that the idea of nature as a pure and timeless place characterized by the absence of humans has come to an end.But life goes on. Wildlife inhabits everywhere and is on the move; Lorimer proposes the concept of wildlife as a replacement for nature.Offering a thorough appraisal of the Anthropocene—an era in which human actions affect and influence all life and all systems on our planet— Lorimer unpacks its implications for changing definitions of nature and the politics of wildlife conservation.Wildlife in the Anthropocene examines rewilding, the impacts of wildlife films, human relationships with charismatic species, and urban wildlife.Analyzing scientific papers, policy documents, and popular media, as well as a decade of fieldwork, Lorimer explores the new interconnections between science, politics, and neoliberal capitalism that the Anthropocene demands of wildlife conservation.Imagining conservation in a world where humans are geological actors entangled within and responsible for powerful, unstable, and unpredictable planetary forces, this work nurtures a future environmentalism that is more hopeful and democratic.
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Wildlife Conservation
Featuring twenty of the world's most 'at risk' animals, this book teaches young naturalists about conservation programs protect the lives of endangered wild animals from hunters, poachers, illness and other threats.Understanding these threats is balanced with conservation success stories from around the globe to give the reader hope for the future.Clearly written text, maps, quotes and stunning full-page illustrations bring the reality into focus for the reader.
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Boom Turbine
The Boom Library is a revolutionary sound design plugin for generating authentic virtual engines. Over 50 presets give you access to a versatile range of whooshes pressure releases robotics sirens flame bursts musical fx and more that can all be customized in real-time. Real-time processing grants you full intuitive control over a comprehensive range of parameters and their automation. There are a number of real-world specifications to accurately simulate engine functions. Select a preset then specify Burn Angle Bass Character Harmonics Drive Life Spread RPM and Thrust to accurately represent any engine state you might need. Utilise the intuitive simulation panel to create realistic flight paths and fly-bys in just a few seconds so you can precisely and dynamically match engine movement and position to objects on screen for full immersion into three-dimensional space with ease. Please Note: This product comes in the form of a digital download code that will be sent to your email for activation.
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What is a wind turbine?
A wind turbine is a device that converts the kinetic energy of the wind into mechanical energy, which is then used to generate electricity. It consists of large blades attached to a rotor, which spins when the wind blows. The spinning rotor is connected to a generator that produces electricity. Wind turbines are typically grouped together in wind farms to generate large amounts of renewable energy.
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How are turbine blades manufactured?
Turbine blades are typically manufactured using advanced techniques such as precision casting or additive manufacturing. In precision casting, a wax pattern of the blade is created and then coated with ceramic material to form a mold. The mold is then heated to melt the wax and leave a cavity in the shape of the blade, which is then filled with molten metal to form the final blade. Additive manufacturing, on the other hand, involves building up the blade layer by layer using a 3D printing process. Both methods require high precision and quality control to ensure the blades meet the strict performance requirements for use in turbines.
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What is the difference between a high-pressure turbine and a low-pressure turbine?
The main difference between a high-pressure turbine and a low-pressure turbine lies in their location within a gas turbine engine. High-pressure turbines are located closer to the combustion chamber and are responsible for driving the compressor, while low-pressure turbines are positioned further downstream and are typically larger in size, focusing on extracting energy from the hot gases to drive the engine's output shaft. High-pressure turbines operate at higher temperatures and pressures, while low-pressure turbines operate at lower temperatures and pressures, reflecting their respective roles in the engine's power generation process.
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What do wind turbine technicians earn?
Wind turbine technicians earn a median annual wage of around $56,230, according to the U.S. Bureau of Labor Statistics. However, this can vary depending on factors such as experience, location, and the specific employer. Technicians may also receive additional compensation for working in remote or challenging environments, as well as overtime pay for working long or irregular hours. Overall, the salary for wind turbine technicians is competitive and can provide a stable income for those in the field.
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Ice turbine H.Koenig
Make creamy ice cream and tasty homemade sorbets in less than 50 minutes with the HF250 Ice Cream Maker. User-friendly and based on professional ice cream maker technology, the HF250 Ice Cream Maker has a powerful and sturdy built-in cooling unit for perfect low temperature control. Pour the mixture into its non-stick, removable 1.5-liter bowl, start the preparation thanks to its digital screen and the ice cream maker will do the rest to delight everyone. Once the ice cream is ready, serve it with the ice cream scoop provided. No need to watch over the ice cream maker with its automatic stop and keep cold function, you can start the ice cream maker at any time. Make homemade ice cream all year round with the HF250.featuresCapacity: 1.5 LPreparation rapide: 30 to 50 minLCD screenAutomatic stopRemovable non-stick preparation bowlCold hold functionAccessory: ice cream scoopPower: 150 WAssociated accessory: BO325
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Conservation Physiology : Applications for Wildlife Conservation and Management
Conservation physiology is a rapidly expanding, multidisciplinary field that utilizes physiological knowledge and tools to understand and solve conservation challenges.This novel text provides the first consolidated overview of its scope, purpose, and applications, with a focus on wildlife.It outlines the major avenues and advances by which conservation physiology is contributing to the monitoring, management, and restoration of wild animal populations.This book also defines opportunities for further growth in the field and identifies critical areas for future investigation.By using a series of global case studies, contributors illustrate how approaches from the conservation physiology toolbox can tackle a diverse range of conservation issues including the monitoring of environmental stress, predicting the impact of climate change, understanding disease dynamics, improving captive breeding, and reducing human-wildlife conflict.Moreover, by acting as practical road maps across a diversity of sub-disciplines, these case studies serve to increase the accessibility of this discipline to new researchers.The diversity of taxa, biological scales, and ecosystems highlighted illustrate the far-reaching nature of the discipline and allow readers to gain an appreciation for the purpose, value, applicability, and status of the field of conservation physiology. Conservation Physiology is an accessible supplementary textbook suitable for graduate students, researchers, and practitioners in the fields of conservation science, eco-physiology, evolutionary and comparative physiology, natural resources management, ecosystem health, veterinary medicine, animal physiology, and ecology.
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Renewable Energy and Wildlife Conservation
Brings together disparate conversations about wildlife conservation and renewable energy, suggesting ways these two critical fields can work hand in hand. Renewable energy is often termed simply "green energy," but its effects on wildlife and other forms of biodiversity can be quite complex.While capturing renewable resources like wind, solar, and energy from biomass can require more land than fossil fuel production, potentially displacing wildlife habitat, renewable energy infrastructure can also create habitat and promote species health when thoughtfully implemented. The authors of Renewable Energy and Wildlife Conservation argue that in order to achieve a balanced plan for addressing these two crucially important sustainability issues, our actions at the nexus of these fields must be directed by current scientific information related to the ecological effects of renewable energy production.Synthesizing an extensive, rapidly growing base of research and insights from practitioners into a single, comprehensive resource, contributors to this volume• describe processes to generate renewable energy, focusing on the Big Four renewables—wind, bioenergy, solar energy, and hydroelectric power• review the documented effects of renewable energy production on wildlife and wildlife habitats• consider current and future policy directives, suggesting ways industrial-scale renewables production can be developed to minimize harm to wildlife populations• explain recent advances in renewable power technologies• identify urgent research needs at the intersection of renewables and wildlife conservationRelevant to policy makers and industry professionals—many of whom believe renewables are the best path forward as the world seeks to meet its expanding energy needs—and wildlife conservationists—many of whom are alarmed at the rate of renewables-related habitat conversion—this detailed book culminates with a chapter underscoring emerging opportunities in renewable energy ecology. Contributors: Edward B. Arnett, Brian B. Boroski, Regan Dohm, David Drake, Sarah R. Fritts, Rachel Greene, Steven M. Grodsky, Amanda M. Hale, Cris D. Hein, Rebecca R. Hernandez, Jessica A. Homyack, Henriette I. Jager, Nicole M. Korfanta, James A. Martin, Christopher E. Moorman, Clint Otto, Christine A. Ribic, Susan P. Rupp, Jake Verschuyl, Lindsay M. Wickman, T. Bently Wigley, Victoria H. Zero
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Wildlife Ecology, Conservation, and Management
To understand modern principles of sustainable management and the conservation of wildlife species requires intimate knowledge about demography, animal behavior, and ecosystem dynamics.With emphasis on practical application and quantitative skill development, this book weaves together these disparate elements in a single coherent textbook for senior undergraduate and graduate students.It reviews analytical techniques, explaining the mathematical and statistical principles behind them, and shows how these can be used to formulate realistic objectives within an ecological framework. This third edition is comprehensive and up-to-date, and includes: Brand new chapters that disseminate rapidly developing topics in the field: habitat use and selection; habitat fragmentation, movement, and corridors; population viability. analysis, the consequences of climate change; and evolutionary responses to disturbance A thorough updating of all chapters to present important areas of wildlife research and management with recent developments and examples. A new online study aid ? a wide variety of downloadable computer programs in the freeware packages R and Mathcad, available through a companion website.Worked examples enable readers to practice calculations explained in the text and to develop a solid understanding of key statistical procedures and population models commonly used in wildlife ecology and management. The first half of the book provides a solid background in key ecological concepts.The second half uses these concepts to develop a deeper understanding of the principles underlying wildlife management and conservation.Global examples of real-life management situations provide a broad perspective on the international problems of conservation, and detailed case histories demonstrate concepts and quantitative analyses.This third edition is also valuable to professional wildlife managers, park rangers, biological resource managers, and those working in ecotourism.
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What is a wind turbine 2?
A wind turbine is a device that converts the kinetic energy of the wind into mechanical power, which can then be used to generate electricity. Wind turbines consist of blades that rotate when the wind blows, a shaft that connects the blades to a generator, and a tower that supports the entire structure. The generator then converts the mechanical power into electrical power, which can be fed into the electrical grid or used to power homes and businesses. Wind turbines are a sustainable and renewable source of energy that helps reduce reliance on fossil fuels and decrease greenhouse gas emissions.
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How does a wind turbine work?
A wind turbine works by capturing the kinetic energy of the wind and converting it into mechanical energy. When the wind blows, it causes the turbine's blades to rotate. This rotation then drives a generator, which converts the mechanical energy into electrical energy. The electricity produced can then be used to power homes, businesses, or be stored in batteries for later use. Wind turbines are a clean and renewable source of energy, making them an important part of the transition to a more sustainable energy system.
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How can one build a turbine themselves?
Building a turbine yourself requires careful planning and knowledge of the components involved. First, you need to decide on the type of turbine you want to build, whether it's a wind turbine or a water turbine. Next, gather the necessary materials such as blades, a generator, and a tower. You will also need to follow detailed instructions or guides to assemble the turbine correctly. It's important to ensure safety measures are in place during the construction process.
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Does a wind turbine turn by itself?
Yes, a wind turbine does turn by itself. The blades of a wind turbine are designed to capture the kinetic energy of the wind and convert it into rotational energy, which then turns the turbine's rotor. This rotation drives the generator inside the turbine, producing electricity. The turbine is designed to automatically align itself with the direction of the wind, allowing it to capture the maximum amount of energy. Therefore, once the wind starts blowing, the turbine will begin turning on its own.
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