The human eye is only capable of detecting a miniscule percentage of the electromagnetic spectrum; we call this visible light. It is this limited perception that has defined our very reality as a species. Second Sight is the story of a brilliant young scientist who develops the nano-technology to cure blindness. He could never have prepared for the betrayal and intrigue that befell him, nor could he have foreseen the hidden agendas that lay waiting in the shadows. Michael Rose's synchronistic journey into the realms of possibility would not only leave him questioning his own sanity, but the very nature of existence itself. Neither he nor his nefarious benefactors stopped to ask: if this nano-technology could enhance the function of the human eye, what else would it see?
Latest Edition: Introductory Economics (4th Edition)This textbook is carefully designed to provide the reader with a good understanding of the fundamental concepts of economics. The writing is lucid and at the student's level. There are twenty-nine “one-concept” chapters. Each chapter is suitably short, highlighting one economic principle. The student can study one concept and be reinforced by the learning process before proceeding to another chapter. Self review exercises conclude each chapter. The one-concept chapters also provide organizational flexibility for the instructor. The text is well integrated to show the relationship among the basic concepts and to offer a comprehensive overview of economics. There are six modules: The Economic Problem; Price Determination; Behind the Supply Curve; Level of Income; Money; and Trade.
Based on his extensive investigation of the global environmental crisis, in which he explored five continents, "Earth Odyssey" recounts Hertsgaard's search for the answer to the essential question of our time: Is the future of the human species at risk?
Feasibility study and business planLearn How to Present a Completed Feasibility StudyA feasibility study is a thoroughly researched analysis of a plan or method. The purpose of a feasibility study is to determine and then communicate whether an action being considered is practical for a business or project.These studies usually contain detailed information about the financial structure for the plan and an analysis of the market with regards to the proposal (if needed).It also contains the suggested logistics for delivering a product or service, the resources you'll need, the personnel support and the organizational structure required. Presenting your feasibility study is just as important as the work you put into it.How to Assemble Your Feasibility StudyHow you present your final study is just as important as the information it contains. If you have a lot of material, organize it into a portfolio or binder. Finding information easily and quickly is important to executives, managers, lenders, and investors, so include tabs (type them if at all possible) to indicate each component in your study.Cover letters should not be generic but should be individualized depending upon with whom you are submitting the study. Before you submit your study, have someone else proofread it for you to check for content and errors.Typographical errors will make your study appear rushed or unprofessional, and if your descriptions and calculations do not make sense to the reader the action will be ruled unfeasible as presented.Although you write your conclusion last, it serves as a summary of the details in your study. You can place it at the end of your document (before any exhibits and attachments), but placing it after the table of contents sets the tone and highlights key issues for the reader to be aware of before they read the rest of the study.
In Part I, Prof. Targowski takes us through the evolution of modern computing and information systems. While much of this material is familiar to those of us who have lived through these developments, it would definitely not be familiar to our children or our students. He also introduces a perspective that I found both refreshing and useful: looking at the evolution on a country by country basis. For those of us who live in the U.S., it is all too easy to imagine that evolution to be a purely local phenomenon. I found my appreciation of the truly global nature of computing expanding as he walked me through each country’s contributions. In Parts II and III, constituting nearly half of the book, Targowski provides what I would describe as an in-depth case study of the challenges and successes of informatics in Poland. As he tells each story—many of which involved him personally—the reader cannot help but better understand the close relationship between the freedoms that we in the west take for granted and the ability to produce innovations in IT. Even after Poland left the orbit of the former Soviet Union, the remaining vestiges of the old way of thinking remained a major impediment to progress. Being right and being rigorous were far less important than being in tune with the “approved” ways of thinking. There are important lessons to be learned here, particularly as we try to project how IT will evolve in rapidly developing economies such as China. But, from my experience, they apply equally well to western academia, where moving outside of preferred values and patterns of research can lead a scholar to be ignored or even disparaged. In Part IV, Targowski presents a bold, forward-looking synthesis of informatics and informing science in the future. Building upon articles recently published in Informing Science: The International Journal of an Emerging Transdiscipline, he presents a conceptual scheme of historical informing waves that builds upon historians such as Toynbee. He then considers how these trends will necessarily force us to rethink how we develop and apply IT. He does not steer away from the controversial. But he also provides cogent arguments for all his predictions and recommendations.
