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


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  • Basic Chemistry for Life Science Students and Professionals : Introduction to Organic Compounds and Drug Molecules
    Basic Chemistry for Life Science Students and Professionals : Introduction to Organic Compounds and Drug Molecules

    Organic chemistry plays a vital role in the pharmaceutical industry.Knowledge of organic compounds is used to inform research and further the discovery and development of new medicines.Likewise, organic chemistry is fundamental to understanding biological reactions, mechanisms and all life sciences in general.Basic Chemistry for Life Science Students and Professionals is an ideal introduction to organic chemistry in the context of the life sciences and pharmacy related disciplines; utilising drug molecules to illustrate the chemical basis of their efficacy and interaction with biological targets.This book builds upon the basic concepts of organic chemistry to develop the reader’s understanding of the importance of organic chemistry to the life sciences from natural product sources, their synthesis, and approaches to drug discovery.Ideal for undergraduate students in the natural sciences, this book is also an excellent primer for postgraduates in a variety of disciplines including forensic science and allied-health programmes as well as professionals working in related fields seeking a comprehensive introduction to organic chemistry in the context of pharmaceuticals.

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  • Engineering Biology for Microbial Biosynthesis of Plant-Derived Bioactive Compounds
    Engineering Biology for Microbial Biosynthesis of Plant-Derived Bioactive Compounds

    Engineering Biology for Microbial Biosynthesis of Plant-Derived Bioactive Compounds will be of great interest to undergraduate and graduate students, scientists, researchers, and engineers who work on the microbial production of plant-derived bioactive compounds.As many plant-derived bioactive compounds are the foundation of effective drugs to cure diseases, it's important to understand the limits of their applications in drugs and other industries.With the development of synthetic biology and green biomanufacturing, the biosynthesis of complex bioactive compounds is possible.However, the engineering fundamentals for microbial biosynthetic of plant-derived bioactive compounds is vast. This book summarizes the engineering fundamental biotechnologies for microbial production of plant-derived bioactive compounds, allowing the content to be easily accessed.Coverage includes summaries of key achievements, identification of challenges, current approaches, tips and tricks, and helpful insights into critical bottlenecks.

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  • Transition Metal Compounds
    Transition Metal Compounds

    Describing all aspects of the physics of transition metal compounds, this book provides a comprehensive overview of this unique and diverse class of solids.Beginning with the basic concepts of the physics of strongly correlated electron systems, the structure of transition metal ions, and the behaviours of transition metal ions in crystals, it goes on to cover more advanced topics such as metal-insulator transitions, orbital ordering, and novel phenomena such as multiferroics, systems with oxygen holes, and high-Tc superconductivity.Each chapter concludes with a summary of key facts and concepts, presenting all the most important information in a consistent and concise manner.Set within a modern conceptual framework, and providing a complete treatment of the fundamental factors and mechanisms that determine the properties of transition metal compounds, this is an invaluable resource for graduate students, researchers and industrial practitioners in solid state physics and chemistry, materials science, and inorganic chemistry.

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  • What are compounds in chemistry?

    Compounds in chemistry are substances made up of two or more different elements that are chemically bonded together. These elements are combined in specific ratios to form compounds with unique properties. Compounds can be formed through various chemical reactions, and they can have different structures and properties compared to their individual elements. Examples of compounds include water (H2O), carbon dioxide (CO2), and sodium chloride (NaCl).

  • Can you help me with chemistry? I need information about atomic compounds, metal compounds, and ionic compounds.

    Of course! Atomic compounds are formed when two or more non-metal atoms are chemically bonded together, such as in molecules like water (H2O) and carbon dioxide (CO2). Metal compounds are formed when a metal atom is bonded to one or more non-metal atoms, such as in compounds like sodium chloride (NaCl) and iron oxide (Fe2O3). Ionic compounds are formed when a metal atom transfers one or more electrons to a non-metal atom, resulting in the formation of positively and negatively charged ions that are attracted to each other, such as in compounds like sodium chloride (NaCl) and calcium carbonate (CaCO3). Let me know if you need more specific information or examples!

  • How are compounds named in chemistry?

    Compounds in chemistry are named using a system called chemical nomenclature. This system involves using prefixes and suffixes to indicate the types and numbers of atoms present in the compound. For example, the prefix "mono-" is used to indicate one atom, "di-" for two atoms, "tri-" for three atoms, and so on. The suffix of the compound's name also indicates the type of bond present, such as "-ide" for binary compounds, "-ate" for compounds containing oxygen, and "-ite" for compounds containing fewer oxygen atoms than the "-ate" form. Overall, chemical nomenclature provides a systematic way to name and identify compounds based on their composition.

  • What are meso compounds in chemistry?

    Meso compounds are a type of stereoisomer that possess an internal plane of symmetry, which results in their optical inactivity. This means that even though meso compounds have chiral centers, they do not exhibit optical activity because the two chiral centers within the molecule cancel out each other's effects. Meso compounds are often found in molecules with multiple chiral centers and are important in the study of stereochemistry and organic synthesis.

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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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    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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  • 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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  • The Great Mental Models: Physics, Chemistry and Biology
    The Great Mental Models: Physics, Chemistry and Biology

    A cult bestseller in the US, available around the world for the first time, The Great Mental Models introduces the simple tools we all need to see the world clearly. Time and time again, great thinkers like Warren Buffett and Charlie Munger have credited their success to mental models: simple representations of how the world works that can be applied in a wide array of contexts.Mastering a small number of these concepts enables you to rapidly grasp new information, identify patterns others don’t, and better anticipate outcomes. The Great Mental Models introduces the most powerful models that anyone can use right away to improve decision making and productivity.In this volume, Shane Parrish introduces mental tools borrowed from the hard sciences in language anyone can understand, including:Leverage: When the application of a small force to one end results in a larger force at the other end. Inertia: An object (or organization) at rest will stay at rest unless acted upon by an external force. Activation Energy: The minimum amount of energy required to incite a chemical reaction. Building a latticework of mental models is one of the most powerful things you can do to become a better thinker, leader, or creator.The Great Mental Models is the accessible guide you need to unlock this ability.

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  • What compounds make up a potato in chemistry?

    Potatoes are primarily composed of water, starch, and carbohydrates. The water content of a potato can range from 70-80%, while the starch and carbohydrate content make up the majority of the dry weight of the potato. Additionally, potatoes also contain small amounts of protein, fiber, vitamins, and minerals such as vitamin C, potassium, and B vitamins. Overall, the composition of a potato is mainly water, starch, and carbohydrates, with smaller amounts of other nutrients.

  • How can one distinguish ionic compounds from molecular compounds?

    Ionic compounds are formed from the attraction between positively and negatively charged ions, while molecular compounds are formed from the sharing of electrons between atoms. One way to distinguish between the two is to look at their chemical formulas. Ionic compounds typically consist of a metal and a nonmetal, while molecular compounds consist of nonmetals only. Additionally, ionic compounds tend to have higher melting and boiling points compared to molecular compounds due to their strong electrostatic attractions. Finally, conducting a simple solubility test can also help distinguish between the two types of compounds, as ionic compounds are often soluble in water while molecular compounds may not be.

  • How do you distinguish determinative compounds and possessive compounds?

    Determinative compounds are formed by combining two words to create a new concept, where the first word determines the meaning of the second word. For example, "blackboard" is a determinative compound where "black" determines the type of "board." Possessive compounds, on the other hand, indicate possession or relationship between the two words. For example, "John's car" is a possessive compound where "John" possesses the "car." In summary, determinative compounds determine the meaning of the second word, while possessive compounds indicate possession or relationship between the two words.

  • How many known compounds are there in organic chemistry?

    There are millions of known compounds in organic chemistry. The exact number is difficult to determine as new compounds are constantly being discovered and synthesized. Organic chemistry is a vast field that encompasses a wide range of molecules with diverse structures and properties.

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