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


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  • Molecular and Cellular Biology of Viruses
    Molecular and Cellular Biology of Viruses

    Viruses interact with host cells in ways that uniquely reveal a great deal about general aspects of molecular and cellular structure and function.Molecular and Cellular Biology of Viruses leads students on an exploration of viruses by supporting engaging and interactive learning.All the major classes of viruses are covered, with separate chapters for their replication and expression strategies, and chapters for mechanisms such as attachment that are independent of the virus genome type.Specific cases drawn from primary literature foster student engagement.End-of-chapter questions focus on analysis and interpretation with answers being given at the back of the book.Examples come from the most-studied and medically important viruses such as HIV, influenza, and poliovirus.Plant viruses and bacteriophages are also included. There are chapters on the overall effect of viral infection on the host cell.Coverage of the immune system is focused on the interplay between host defenses and viruses, with a separate chapter on medical applications such as anti-viral drugs and vaccine development.The final chapter is on virus diversity and evolution, incorporating contemporary insights from metagenomic research. Key selling feature:Readable but rigorous coverage of the molecular and cellular biology of virusesMolecular mechanisms of all major groups, including plant viruses and bacteriophages, illustrated by exampleHost-pathogen interactions at the cellular and molecular level emphasized throughoutMedical implications and consequences included Quality illustrations available to instructorsExtensive questions and answers for each chapter

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  • Physics of Molecular and Cellular Processes
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    This is a graduate-level introduction to quantitative concepts and methods in the science of living systems.It relies on a systems approach for understanding the physical principles operating in biology.Physical phenomena are treated at the appropriate spatio-temporal scale and phenomenological equations are used in order to reflect the system of interest.Biological details enter to the degree necessary for understanding specific processes, but in many cases the approach is not reductionist.This is in line with the approach taken by physics to many other complex systems. The book bridges the gap between graduate students’ general physics courses and research papers published in professional journals.It gives students the foundations needed for independent research in biological physics and for working in collaborations aimed at quantitative biology and biomedical research.Also included are modern mathematical and theoretical physics methods, giving the student a broad knowledge of tools that can shed light on the sophisticated mechanisms brought forth by evolution in biological systems. The content covers many aspects that have been the focus of active research over the past twenty years, reflecting the authors' experience as leading researchers and teachers in this field.

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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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  • What is cellular respiration in biology?

    Cellular respiration is the process by which cells break down glucose and other organic molecules to produce energy in the form of ATP (adenosine triphosphate). This process occurs in the mitochondria of eukaryotic cells and involves a series of biochemical reactions that ultimately release energy for the cell to carry out its functions. Cellular respiration is essential for the survival of all living organisms as it provides the energy needed for growth, repair, and reproduction.

  • What are glycolysis and cellular respiration in biology?

    Glycolysis is the first step in cellular respiration, which is the process by which cells break down glucose to produce energy in the form of ATP. During glycolysis, glucose is converted into pyruvate, producing a small amount of ATP and NADH. Cellular respiration then continues in the mitochondria, where pyruvate is further broken down through the citric acid cycle and oxidative phosphorylation to produce a much larger amount of ATP. Overall, cellular respiration is the process by which cells generate energy from glucose, while glycolysis is the initial step in this process.

  • Can you explain photosynthesis and cellular respiration in biology?

    Photosynthesis is the process by which green plants, algae, and some bacteria convert light energy, usually from the sun, into chemical energy stored in glucose. This process involves the absorption of carbon dioxide and water, which are converted into glucose and oxygen with the help of chlorophyll and sunlight. Cellular respiration, on the other hand, is the process by which cells break down glucose and other organic molecules to release energy in the form of ATP. This process occurs in the mitochondria of cells and involves the consumption of oxygen and production of carbon dioxide as byproducts. Together, photosynthesis and cellular respiration are essential processes that sustain life on Earth by cycling energy and nutrients through ecosystems.

  • 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.

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  • Quantitative Biology : From Molecular to Cellular Systems
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    Quantitative methods are revolutionizing modern molecular and cellular biology.Groundbreaking technical advances are fueling the rapid expansion in our ability to observe, as seen in multidisciplinary studies that integrate theory, computation, experimental assays, and the control of microenvironments.Integrating new experimental and theoretical methods, Quantitative Biology: From Molecular to Cellular Systems gives both new and established researchers a solid foundation for starting work in this field. The book is organized into three sections:Fundamental Concepts covers bold ideas that inspire novel approaches in modern quantitative biology.It offers perspectives on evolutionary dynamics, system design principles, chance and memory, and information processing in biology.Methods describes recently developed or improved techniques that are transforming biological research.It covers experimental methods for studying single-molecule biochemistry, small-angle scattering from biomolecules, subcellular localization of proteins, and single-cell behavior.It also describes theoretical methods for synthetic biology and modeling random variations among cells. Molecular and Cellular Systems focuses on specific biological systems where modern quantitative biology methods are making an impact.It incorporates case studies of biological systems for which new concepts or methods are increasing our understanding.Examples include protein kinase at the molecular level, the genetic switch of phage lambda at the regulatory system level, and Escherichia coli chemotaxis at the cellular level.In short, Quantitative Biology presents practical tools for the observation, modeling, design, and manipulation of biological systems from the molecular to the cellular levels.

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  • Physics in Biology and Medicine
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  • Evolutionary Cell Biology : The Origins of Cellular Architecture
    Evolutionary Cell Biology : The Origins of Cellular Architecture

    The fields of molecular evolution, genome evolution, and evolutionary genetics are now well-established.Remarkably, however, although all evolutionary modifications begin at the cellular level, and despite the advances made in cell biology and microbiology over the past few decades, there is as yet no recognised discipline of evolutionary cell biology.The goal of this book is to help establish the foundations for this emerging field.Its principal aims are twofold: firstly, to promote an understanding among evolutionary biologists as to why the cellular details matter if we are to understand the mechanisms of evolution; secondly, to make clear to non-evolutionary biologists - cell biologists in particular - that evolution is not just a matter of natural selection and optimization, but a process whose reach depends on other population genetic features such as mutation, recombination, and random genetic drift.Although there are many excellent books on cell biology, microbiology, and biophysics, almost no attention is given to evolution.Likewise, although there are numerous evolutionary biology books on the market, none of them gives more than passing attention to details at the cellular level.Thus Evolutionary Cell Biology is genuinely novel, offering a broader understanding of evolutionary processes and an appreciation for the many interesting problems that remain to be solved at the cellular and subcellular levels. This advanced textbook is aimed at both cell biologists and evolutionary biologists.It will be accessible to upper-level undergraduates in biology, and certainly to graduate students in all areas of the life sciences.Professionals from a wide range of fields - cell biology, microbiology, evolution, biophysics, biochemistry, and mathematics - will be exposed to entirely new ideas not traditionally covered in their primary fields of expertise.

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

    Cellular respiration is the process by which cells break down glucose and other organic molecules to produce energy in the form of ATP (adenosine triphosphate). This process occurs in the mitochondria of cells and involves a series of biochemical reactions that ultimately convert the energy stored in glucose into a usable form for the cell. Cellular respiration is essential for the survival of all living organisms as it provides the energy needed for various cellular activities and functions.

  • 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.

  • When does cellular respiration occur?

    Cellular respiration occurs in the cells of living organisms constantly, as it is the process by which cells break down glucose and other organic molecules to produce energy in the form of ATP. This process is essential for the survival of cells and the organism as a whole, providing the energy needed for various cellular activities. Cellular respiration occurs in the presence of oxygen (aerobic respiration) or in the absence of oxygen (anaerobic respiration), depending on the availability of oxygen in the environment.

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