Nowadays religions are especially important for those who are living in countries of the formerly so-called 'Third World'. The miseries of life seem to be so hard that just an afterlife in a transcendent paradise is promising relief. Consequently, there seems to be a close connection between religion and poverty, especially in the 21st century, when the hope for a better afterlife has become a driving force of the poor population of the world. However, what could be interpreted as a proof of the Marxist doctrine of religion as opium of the people, for sure deserves a more multiperspectival approach, which would not just cover the recent years of human history, but past centuries as well as the different religions around the globe. Therefore the second issue of Global Humanities traces the interrelationship between religion and poverty not only from a historical, but also from a sociological, religious and artistic perspective.
Nowadays religions are especially important for those who are living in countries of the formerly so-called 'Third World'. The miseries of life seem to be so hard that just an afterlife in a transcendent paradise is promising relief. Consequently, there seems to be a close connection between religion and poverty, especially in the 21st century, when the hope for a better afterlife has become a driving force of the poor population of the world. However, what could be interpreted as a proof of the Marxist doctrine of religion as opium of the people, for sure deserves a more multiperspectival approach, which would not just cover the recent years of human history, but past centuries as well as the different religions around the globe. Therefore the second issue of Global Humanities traces the interrelationship between religion and poverty not only from a historical, but also from a sociological, religious and artistic perspective.
Swim through the unexpected, the unseen, across to the land of money - To discover the brilliant business survival of young entrepreneurs against lashing waves of unscrupulous politics. For the readers who value ambition as much as happiness, career as much as family, and above all, who find the time to work for their dreams. Arjun - A well-settled Chemical Engineer who gave up his corporate career to become an entrepreneur for his own invention. "Politics and business both had seemed to bore Until they entered into the life I adore - My dream castle was built - perfect and abuzz I had only dreamt of becoming rich like everyone does But then he came with power and spite Melting my empire into dark blight..." - Arjun (The Hero) Anahita - A gorgeous millionaire born into a wealthy family with her days and nights dedicated to the family business until .... her love was denied! "An enchanted Tigress that I am, I don't growl, but then I hunt - Wealth - was never my aim, It was always the smile on my Pa's face…." - Anahita (The Heroine) "I love books with speed With a surprise on every page I read, So when I decided to create mine Added the same fire into each line - Classics are not my type So if you love the fast lane hype Read through and you will find - This simple story will change your mind." - Divya (The Author) (Psst... Anahita and Arjun don't fall in love with each other - They have distinctly separate lives - But they both reign my book." Enjoy!!)
Kannan’s Kitchen, a traditional joint serving South Indian meals with a mean rasam, was the most popular lunch joint in town. That is until Maanga Masala, with its variety of cuisines, was set up right opposite! It came to be known to Kannan that the secret ingredient was in fact the Maanga Masala itself, which the head chef used in all the dishes. Kannan comes up with a master plan of getting hold of the special masala and creating an irresistible khichdi with it, to lure the customers back to his joint. Will Kannan succeed at his scheme? Read on to find out!
This book introduces the role of Rapid Prototyping Techniques within the product development phase. It deals with the concept, origin, and working cycle of Rapid Prototyping Processes with emphasis on the applications. Apart from elaboration of engineering and non-engineering applications, it highlights recent applications like Bio-Medical Models for Surgical Planning, Molecular Models, Architectural Models, Sculptured Models, Psycho-Analysis Models. Special emphasis has been provided to the technique of generating human organs from live cells/tissues of the same human named 3D BIO PRINTERS. As the Rapid Prototyping Techniques are for tailor made products and not for mass manufacturing hence the book also elaborates on the mass manufacturing of rapid prototyped products. This includes casting and rapid tooling. The book concludes with Reverse Engineering and the role played by Rapid Prototyping Techniques towards the same. With globalization of market and advances in science and technology, the life span of products has shortened considerably. For early realization of products and short development period, engineers and researchers are constantly working together for more and more efficient and effective solutions. The most effective solution identified has been usage of computers in both designing and manufacturing. This gave birth to the nomenclatures CAD (Computer Aided Designing) and CAM (Computer aided Manufacturing). This was the initiation that ensured short product development and realization period. Researchers coined the concept as Rapid Prototyping. In contrast to Prototyping, Rapid prototyping is a group of techniques used to quickly fabricate a scale model of a physical part or assembly using three-dimensional computer aided design (CAD) data. Construction of the part or assembly is usually done using 3D printing or "additive or subtractive layer manufacturing" technology. The first methods for rapid prototyping became available in the late 1980s and were used to produce models and prototype parts. Today, they are used for a wide range of applications and are used to manufacture production-quality parts in relatively small numbers if desired without the typical unfavorable short-run economics. This economy has encouraged online service bureaus for early product realization or physical products for actual testing. This book is expected to contain Seven Chapters. Chapter 1 would explain product life cycle and the product development phase in the same, introducing role of Rapid Prototyping Techniques in Product development phase. Chapter 2 would deals with the concept, origin and working cycle of Rapid Prototyping Processes. Chapter 3 would concentrates on the applications of Rapid Prototyping Technology. Apart from elaboration of engineering and non-engineering applications, it also elaborates on recent applications like Bio-Medical Models for Surgical Planning, Molecular Models, Architectural Models, Sculptured Models, Psycho-Analysis Models etc. Chapter 4 would introduce the various Rapid Prototyping systems available worldwide. The chapter also introduces the technique of generating human organs from live cells/tissues of the same human named 3D BIO PRINTERS hence ensuring low rejection rate by human body. As the Rapid Prototyping Techniques are for tailor made products and not for mass manufacturing hence Chapter 5 would elaborates on the mass manufacturing of rapid prototyped products. This includes Casting and Rapid Tooling. Chapter 6 would deal with Reverse Engineering and the role played by Rapid Prototyping Techniques towards the same. As the product realization is primarily dependent on various softwares which are required to be understood for better accuracy so the concluding chapter of the book i.e. Chapter 7 would explain some software associated with the various techniques.
Nanofluids for Heat and Mass Transfer: Fundamentals, Sustainable Manufacturing and Applications presents the latest on the performance of nanofluids in heat transfer systems. Dr. Bharat Bhanvase investigates characterization techniques and the various properties of nanofluids to analyze their efficiency and abilities in a variety of settings. The book moves through a presentation of the fundamentals of synthesis and nanofluid characterization to various properties and applications. Aimed at academics and researchers focused on heat transfer in energy and engineering disciplines, this book considers sustainable manufacturing processes within newer energy harvesting technologies to serve as an authoritative and well-rounded reference. Highlights the major elements of nanofluids as an energy harvesting fluid, including their preparation methods, characterization techniques, properties and applications Includes valuable findings and insights from numerical and computational studies Provides nanofluid researchers with research inspiration to discover new applications and further develop technologies
Xenobiotics in Chemical Carcinogenesis: Translational Aspects in Toxicology covers the translational toxicology of xenobiotics substances in carcinogenesis by explaining the toxicokinetic and toxicodynamic, toxicogenomic, biotransformation, and resistance mechanisms in the human body. The book begins with a historical review and link to future prospects for chemical carcinogenesis. It discusses major environmental xenobiotics and their risks in inducing cancer, along with content on toxic xenobiotics and their routes of exposure in humans, the role of xenobiotic metabolism in carcinogenesis, and the toxicokinetic and toxicodynamic of xenobiotics in cancer development. Lastly, the book explores current achievements such as using toxicogenomics for predicting the carcinogenicity of xenobiotic substances and the challenges posed by carcinogenic xenobiotic substances when examining preventive methods, diagnosis, and the development of anticancer drugs for specific toxicants. Covers the exposure and transmission of various toxic xenobiotics substances, including nanomaterials, to humans and their interaction with specific tissues in precipitating the development of cancers Unravels the toxicokinetic and toxicodynamic processes of toxic xenobiotics in bioaccumulation Examines the genetic aberrations in cancer genomes by genetic-environmental interactions in carcinogenesis Explains the biotransformation mechanisms of toxic xenobiotics by gut microbes in humans
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