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Sodium
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Sodium
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Renewable Energy & Green Technology
This book explains all the basic and advanced concepts of Renewable Energy. The explanation is in a very simple English language. Moreover, It covers the most probable objective and subjective questions and answers for practice.The explanations are very specific and exam-oriented too. All the UG, PG students, research scholars, and competitive exam aspirants can take the benefit from this book.
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Sodium-Ion Batteries : Materials, Characterization, and Technology, 2 Volumes
Presents uparalleled coverage of Na-ion battery technology, including the most recent research and emerging applications Na-ion battery technologies have emerged as cost-effective, environmentally friendly alternatives to Li-ion batteries, particularly for large-scale storage applications where battery size is less of a concern than in portable electronics or electric vehicles.Scientists and engineers involved in developing commercially viable Na-ion batteries need to understand the state-of-the-art in constituent materials, electrodes, and electrolytes to meet both performance metrics and economic requirements.Sodium-Ion Batteries: Materials, Characterization, and Technology provides in-depth coverage of the material constituents, characterization, applications, upscaling, and commercialization of Na-ion batteries.Contributions by international experts discuss the development and performance of cathode and anode materials and their characterization - using methods such as NMR spectroscopy, magnetic resonance imaging (MRI), and computational studies - as well as ceramics, ionic liquids, and other solid and liquid electrolytes.Discusses the development of battery technology based on the abundant alkali ion sodiumFeatures a thorough introduction to Na-ion batteries and their comparison with Li-ion batteriesReviews recent research on the structure-electrochemical performance relationship and the development of new solid electrolytesIncludes a timely overview of commercial perspectives, cost analysis, and safety issues of Na-ion batteriesCovers emerging technologies including Na-ion capacitors, aqueous sodium batteries, and Na-S batteriesThe handbook Sodium-Ion Batteries: Materials, Characterization, and Technology is an indispensable reference for researchers and development engineers, materials scientists, electrochemists, and engineering scientists in both academia and industry.
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Is solar energy renewable?
Yes, solar energy is renewable because it is derived from the sun, which is a virtually limitless source of energy. The sun's energy is constantly being replenished and will continue to do so for billions of years. This makes solar energy a sustainable and renewable source of power that can be harnessed for electricity generation and other applications.
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What is the ionization energy of sodium?
The ionization energy of sodium is 495.8 kJ/mol. This is the energy required to remove one electron from a sodium atom in its gaseous state. Sodium has a relatively low ionization energy, which means it is relatively easy to remove an electron from a sodium atom compared to other elements. This is why sodium readily forms positive ions in chemical reactions.
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Why does sodium chloride have a higher lattice energy than sodium iodide and potassium chloride?
Sodium chloride has a higher lattice energy than sodium iodide and potassium chloride because of the higher charge of the ions and the smaller size of the ions in the crystal lattice. The higher charge of the ions in sodium chloride results in stronger electrostatic attractions between the ions, leading to a higher lattice energy. Additionally, the smaller size of the ions in sodium chloride allows them to pack more closely together in the crystal lattice, further increasing the strength of the electrostatic attractions and the lattice energy.
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How much sodium is in sodium bicarbonate?
Sodium bicarbonate, also known as baking soda, is composed of about 27.4% sodium by weight. This means that for every 100 grams of sodium bicarbonate, there is approximately 27.4 grams of sodium. It is important to note that while sodium bicarbonate contains sodium, it is not as high in sodium content as other sodium-based compounds.
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Renewable Energy and Sustainability : Prospects in the Developing Economies
Renewable Electricity and Sustainability: Prospects in Developing Economies is the first book of its kind to be dedicated entirely to the needs of emerging economies.It provides readers with a comprehensive review of current renewable energy technologies, their status in emerging economies, and the potential for sustainable renewable electricity generation in those countries.A multidisciplinary approach is used to assess the needs and challenges of each region, which is supported by quantitative analyses of the current and future potential for renewable electricity generation.Real-world examples are also provided from the respective electricity sectors of each region. This resource is a unique reference for graduates and researchers on the social, technical and economic landscape of renewable energy in emerging economies and would also be useful to NGO’s and policymakers in developing countries or those working in sustainable development.
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Solar Photovoltaic : Skills2Learn Renewable Energy Workbook
Developed in partnership between Skills2Learn and Cengage Learning, this highly interactive workbook can be used as a resource tool for all introductory renewable energy vocational qualifications and apprenticeships.This unique workbook is designed to consolidate learners’ theoretical knowledge prior to undertaking practical workshop exercises.Solar Photovoltaic provides learners with a thorough insight into renewable energies including the different types of heat and electricity producing technologies, the selection process, incentives and government policies. Part of the Renewable Energy Series, this unique write-in workbook can also be used alongside the Skills2Learn Solar Photovoltaic virtual reality e-learning programme making this a first-of-its-kind, fully integrated blended learning solution.
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Sodium-Ion Batteries : Technologies and Applications
Sodium-Ion Batteries Practice-oriented guide systematically summarizing and condensing the development, directions, potential, and core issues of sodium-ion batteries Sodium-Ion Batteries begins with an introduction to sodium-ion batteries (SIBs), including their background, development, definition, mechanism, and classification/configuration, moving on to summarize cathode and anode materials, discuss electrolyte, separator, and other key technologies and devices, and review practical applications and conclusions/prospects of sodium-ion batteries.The text promotes the idea that SIBs can be a good complement, or even a strong competitor, to more mainstream energy technologies in specific application scenarios, including but not limited to large-scale grid energy storage, distributed energy storage, and low-speed electric vehicles, by virtue of considerable advantages in cost-effectiveness compared with lithium-ion, lead-acid, and vanadium redox flow batteries.This book delves into what we have done, where we are, and how we should proceed in regards to the advancement of SIBs, in order to make the technology more applicable in real-world situations.Specific sample topics covered in Sodium-Ion Batteries include: Electrochemical test techniques, including cyclic voltammetry, galvanostatic charge-discharge, and electrochemical impedance spectroscopyAdvanced characterization techniques and theoretical calculation, covering imaging and microscopy, and the synchrotron radiation x-ray diffraction techniqueDesigning and manufacturing SIBs, covering types of cells (cylindrical, soft-pack, and psitmatic), and design requirements for cellsPerformance tests and failure analysis, covering electrochemical and safety performances test, failure phenomenon, failure analysis method, and cost estimationSolid-state nuclear magnetic resonance spectroscopy, covering principles of ssNMR and shift ranges for battery materials A complete review of an exciting energy storage technology that is undergoing a crucial development stage, Sodium-Ion Batteries is an essential resource for materials scientists, inorganic and physical chemists, and all other academics, researchers, and professionals who wish to stay on the cutting edge of energy technology.
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Barbour International Sodium Shirt - Beech / Medium
These Barbour International Sodium shirts are smart-casual essentials for any man’s wardrobe, featuring a classic all-over gingham pattern, B.Intl branding, and a tailored fit. 100% cotton/cotton twill Front button fastening and two pockets on the chest Barbour International branding near pocket, as pictured Machine wash at 30°C
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How do sodium chloride and sodium chlorate differ?
Sodium chloride and sodium chlorate differ in their chemical composition and uses. Sodium chloride, commonly known as table salt, is a simple ionic compound composed of sodium and chloride ions. It is used as a seasoning and preservative in food, as well as in various industrial processes. On the other hand, sodium chlorate is a chemical compound containing sodium, chlorine, and oxygen. It is used as an herbicide, a bleaching agent, and in the production of chlorine dioxide. Additionally, sodium chlorate is more toxic than sodium chloride and should be handled with care.
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What is the ionization energy of a sodium atom?
The ionization energy of a sodium atom is the amount of energy required to remove one electron from a neutral sodium atom in the gaseous state. The first ionization energy of sodium is 495.8 kJ/mol. This means that 495.8 kJ of energy is needed to remove one electron from a mole of sodium atoms in the gaseous state. This process results in the formation of a sodium cation with a +1 charge.
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How can sodium oxide and sodium hydroxide be detected?
Sodium oxide can be detected by performing a flame test, where the compound is heated in a flame and the characteristic yellow color of sodium is observed. Sodium hydroxide can be detected by adding a few drops of phenolphthalein indicator to a solution suspected to contain the compound; a pink color change indicates the presence of sodium hydroxide. Additionally, both compounds can be identified through chemical reactions with specific reagents that produce characteristic precipitates or color changes.
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How can one convert sodium hydroxide into sodium hydroxide?
Sodium hydroxide cannot be converted into itself as it is a pure compound. However, if you meant to ask how to produce sodium hydroxide from another compound, one common method is the electrolysis of a sodium chloride solution (brine). This process involves passing an electric current through the solution, causing the sodium ions to migrate to the negative electrode (cathode) and react with water to form sodium hydroxide.
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