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  • The New Science Encyclopedia : Chemistry • Physics • Biology
    The New Science Encyclopedia : Chemistry • Physics • Biology


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  • Discover Biology, Chemistry & Physics
    Discover Biology, Chemistry & Physics


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  • Plasma Science and Technology : Lectures in Physics, Chemistry, Biology, and Engineering
    Plasma Science and Technology : Lectures in Physics, Chemistry, Biology, and Engineering

    Plasma Science and Technology An accessible introduction to the fundamentals of plasma science and its applications In Plasma Science and Technology: Lectures in Physics, Chemistry, Biology, and Engineering, distinguished researcher Dr. Alexander Fridman delivers a comprehensive introduction to plasma technology, including fulsome descriptions of the fundamentals of plasmas and discharges.The author discusses a wide variety of practical applications of the technology to medicine, energy, catalysis, coatings, and more, emphasizing engineering and science fundamentals.Offering readers illuminating problems and concept questions to support understanding and self-study, the book also details organic and inorganic applications of plasma technologies, demonstrating its use in nature, in the lab, and in both novel and well-known applications.Readers will also find: A thorough introduction to the kinetics of excited atoms and molecules Comprehensive explorations of non-equilibrium atmospheric pressure cold discharges Practical discussions of plasma processing in microelectronics and other micro-technologies Expert treatments of plasma in environmental control technologies, including the cleaning of air, exhaust gases, water, and soil Perfect for students of chemical engineering, physics, and chemistry, Plasma Science and Technology will also benefit professionals working in these fields who seek a contemporary refresher in the fundamentals of plasma science and its applications.

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  • Investing in Science : Social Cost-Benefit Analysis of Research Infrastructures
    Investing in Science : Social Cost-Benefit Analysis of Research Infrastructures

    A proposal for using cost-benefit analysis to evaluate the socioeconomic impact of public investment in large scientific projects. Large particle accelerators, outer space probes, genomics platforms: all are scientific enterprises managed through the new form of the research infrastructure, in which communities of scientists collaborate across nations, universities, research institutions, and disciplines.Such large projects are often publicly funded, with no accepted way to measure the benefits to society of these investments.In this book, Massimo Florio suggests the use of cost-benefit analysis (CBA) to evaluate the socioeconomic impact of public investment in large and costly scientific projects. The core concept of CBA of any infrastructure is to undertake the consistent intertemporal accounting of social welfare effects using the available information.Florio develops a simple framework for such accounting in the research infrastructure context and then offers a systematic analysis of the benefits in terms of the social agents involved.He measures the benefits to scientists, students, and postdoctoral researchers; the effect on firms of knowledge spillovers; the benefits to users of information technology and science-based innovation; the welfare effects on the general public of cultural services provided by RIs; and the willingness of taxpayers to fund scientific knowledge creation.Finally, Florio shows how these costs and benefits can be expressed in the form of stochastic net present value and other summary indicators.

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  • What is the best natural science: Math, Physics, Biology, Chemistry, or Computer Science?

    It is subjective to determine the "best" natural science as each field has its own unique contributions to our understanding of the natural world. Math provides the foundation for understanding and solving problems in all the other sciences. Physics explores the fundamental laws of nature and the behavior of matter and energy. Biology studies living organisms and their interactions with the environment. Chemistry focuses on the composition, structure, and properties of matter. Computer Science deals with the theory and practice of computation and information. Each of these sciences is valuable in its own right and contributes to our understanding of the world around us.

  • Which subject should be removed: Chemistry, Biology, Physics, or Computer Science?

    It is not advisable to remove any of these subjects as they all play a crucial role in providing a well-rounded education. Each subject offers unique perspectives and skills that are valuable for students' academic and professional development. Instead of removing a subject, it would be more beneficial to ensure that all students have access to a diverse range of subjects and resources to support their learning in each area.

  • Physics or Chemistry or Biology?

    It ultimately depends on personal interests and career goals. Physics deals with the study of matter, energy, and the fundamental forces of the universe. Chemistry focuses on the composition, structure, properties, and changes of matter. Biology is the study of living organisms and their interactions with each other and their environment. Each field offers unique perspectives and opportunities for exploration and discovery.

  • What is a project environment analysis? (See photo)

    A project environment analysis is the process of evaluating the external factors that can impact a project's success. This includes assessing the political, economic, social, technological, legal, and environmental factors that may influence the project. By conducting a project environment analysis, project managers can better understand the potential risks and opportunities that may arise, and make informed decisions to mitigate potential challenges and leverage favorable conditions. This analysis helps ensure that the project is aligned with the external environment and has a higher chance of success.

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  • Physics in Biology and Medicine
    Physics in Biology and Medicine

    A best-selling resource now in its fifth edition, Paul Davidovits’ Physics in Biology and Medicine provides a high-quality and highly relevant physics grounding for students working toward careers in the medical and related professions.The text does not assume a prior background in physics, but provides it as required.It discusses biological systems that can be analyzed quantitatively and demonstrates how advances in the life sciences have been aided by the knowledge of physical or engineering analysis techniques, with applications, practice, and illustrations throughout. Physics in Biology and Medicine, Fifth Edition, includes new material and corresponding exercises on many exciting developments in the field since the prior edition, including biomechanics of joint replacement; biotribology and frictional properties of biological materials such as saliva, hair, and skin; 3-D printing and its use in medicine; new materials in dentistry; microfluidics and its applications to medicine; health, fractals, and the second law of thermodynamics; bioelectronic medicine; microsensors in medicine; role of myelin in learning, cryoelectron microscopy; clinical uses of sound; health impact of nanoparticle in polluted air. This revised edition delivers a concise and engaging introduction to the role and importance of physics in biology and medicine.It is ideal for courses in biophysics, medical physics, and related subjects.

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  • Physics in Biology and Medicine
    Physics in Biology and Medicine

    **Selected for Doody’s Core Titles® 2024 in Medical Physics** Physics in Biology and Medicine, Sixth Edition includes new, revised material, and corresponding exercises on many exciting developments in the field.New sections cover biomechanics, biotribology, frictional properties of biological materials, 3-D printing and its use in medicine, new materials in dentistry, microfluidics, bioelectronic medicine, microsensors, and microscopy.This revised edition delivers helpful and engaging additions to the role and importance of physics in biology and medicine, including new coverage on metamaterials, metabolism, and environmental science.It is ideal for courses in biophysics, medical physics, and related subjects.

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  • Data Analysis in Qualitative Research : Theorizing with Abductive Analysis
    Data Analysis in Qualitative Research : Theorizing with Abductive Analysis

    From two experts in the field comes an accessible, how-to guide that will help researchers think more productively about the relation between theory and data at every stage of their work. In Data Analysis in Qualitative Research, Iddo Tavory and Stefan Timmermans provide a how-to guide filled with tricks of the trade for researchers who hope to take excellent qualitative data and transform it into powerful scholarship.In their previous book, Abductive Analysis: Theorizing Qualitative Research, Timmermans and Tavory offered a toolkit for innovative theorizing in the social sciences.In this companion, they go one step further to show how to uncover the surprising revelations that lie waiting in qualitative data—in sociology and beyond. In this book, they lay out a series of tools designed to help both novice and expert scholars see and understand their data in surprising ways.Timmermans and Tavory show researchers how to “stack the deck” of qualitative research in favor of locating surprising findings that may lead to theoretical breakthroughs, whether by engaging with theory, discussing research strategies, or walking the reader through the process of coding data.From beginning to end of a research project, Data Analysis in Qualitative Research helps social scientists pinpoint the most promising paths to take in their approach.

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  • GCSE Combined Science AQA Revision Question Cards: All-in-one Biology, Chemistry & Physics
    GCSE Combined Science AQA Revision Question Cards: All-in-one Biology, Chemistry & Physics

    If you want to really test your GCSE Combined Science knowledge, try CGP's massive box of Revision Question Cards!There are over 180 cards in the pack, covering all the key Biology, Chemistry and Physics topics from the Grade 9-1 AQA Trilogy course.Each card starts off with quick questions to warm you up, followed by harder questions to get your brain into top gear.Flip the card over and you’ll find full answers to each question, carefully written to help you understand everything you need to know.Along the way, we’ve packed in plenty of diagrams and expert revision tips, and there are even questions on Working Scientifically and Practical Skills.If you'd prefer we have AQA Combined Science Biology (9781789080551), Chemistry (9781789080568) and Physics (9781789080575) Cards in separate packs.

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  • What is a pedigree analysis in biology?

    A pedigree analysis in biology is a method used to study the inheritance of traits within a family. It involves the construction of a family tree that shows the presence or absence of a particular trait across multiple generations. By analyzing the patterns of inheritance within the pedigree, scientists can determine whether a trait is inherited in a dominant, recessive, or X-linked manner. This information is valuable for understanding the genetic basis of diseases and for predicting the likelihood of a trait being passed on to future generations.

  • How does pedigree analysis work in biology?

    Pedigree analysis in biology involves studying the inheritance patterns of specific traits or genetic disorders within a family over multiple generations. By examining the family tree or pedigree chart, geneticists can trace the transmission of a particular trait or disorder and determine whether it is inherited in a dominant, recessive, or X-linked manner. This analysis helps in understanding the genetic basis of diseases, predicting the likelihood of an individual inheriting a particular trait, and identifying carriers of genetic disorders within a family. Pedigree analysis is a valuable tool in genetics research and can provide insights into the inheritance patterns of various traits and diseases.

  • What is the question regarding pedigree analysis in biology?

    The question regarding pedigree analysis in biology typically revolves around understanding the inheritance patterns of specific traits or genetic disorders within a family. Researchers use pedigree analysis to trace the transmission of traits through generations and determine whether they follow Mendelian inheritance patterns. By studying pedigrees, scientists can also identify the mode of inheritance (autosomal dominant, autosomal recessive, X-linked, etc.) of a particular trait or disorder, which can provide valuable insights into genetic counseling and disease management.

  • What is the question about pedigree analysis in biology?

    Pedigree analysis in biology involves studying the inheritance patterns of traits within a family over multiple generations. The main question in pedigree analysis is how a particular trait is passed down from one generation to the next. By examining the pedigree chart, researchers can determine whether the trait is dominant or recessive, and whether it is linked to a specific gene or chromosome. This analysis helps in understanding the genetic basis of inherited traits and diseases within a population.

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