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Physical organic chemistry --- Chemistry, Physical organic --- Chemistry, Organic --- Chemsitry, Physical --- Basic Sciences. Chemistry --- Organic Chemistry.

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Twenty-three carefully selected, peer-reviewed contributions from the International Conference on Pure and Applied Chemistry (ICPAC 2014) are featured in this edited book of proceedings. ICPAC 2014, a biennial meeting, was held in Mauritius in June 2014. The theme of the conference was “Crystallizing Ideas: The Role of Chemistry” and it matched the declaration of the year 2014 as the International Year of Crystallography. ICPAC 2014 was attended by 150 participants from 30 countries. The chapters in this book reflect a wide range of fundamental and applied research in chemistry and interdisciplinary subjects. Crystallizing Ideas - The Role of Chemistry is written for graduates, postgraduates, researchers in industry and academia who have an interest in the fields ranging from fundamental to applied chemistry.

Environmental chemistry. --- Chemistry, Environmental --- Chemistry --- Ecology --- Chemistry, inorganic. --- Chemistry, Physical organic. --- Inorganic Chemistry. --- Physical Chemistry. --- Environmental Chemistry. --- Inorganic chemistry --- Inorganic compounds --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Inorganic chemistry. --- Physical chemistry. --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry

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As a companion to the undergraduate textbook “Physical Chemistry from a Different Angle”, this workbook offers an excellent opportunity to deepen the understanding of the concepts presented in the textbook by addressing specific problems. The workbook is divided into two parts: a first part with nearly 200 exercises and a second part providing the corresponding detailed solutions with helpful comments, enabling students to learn independently.

Chemistry, Physical organic. --- Thermodynamics. --- Catalysis. --- Physical Chemistry. --- Activation (Chemistry) --- Chemistry, Physical and theoretical --- Surface chemistry --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Chemistry, Physical organic --- Chemistry, Organic --- Physical chemistry. --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry

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Diese Einführung in die spezielle Mineralogie, Petrologie und Lagerstättenkunde auf genetischer Grundlage konzentriert sich auf wesentliche Lehrinhalte des Fachgebiets. Grundkenntnisse in der allgemeinen Mineralogie und Kristallographie sowie in Physik, Chemie und allgemeiner Geologie werden vorausgesetzt. Zahlreiche Hinweise auf die technische Bedeutung von Mineralien, Gesteinen und Erzen bereichern das Lehrbuch. Das Werk spiegelt die langjährigen Erfahrungen der Autoren wider und ist in idealer Weise auf den Unterricht an Universitäten zugeschnitten. Der Inhalt der 6. Auflage wurde vollständig überarbeitet, auf modernen wissenschaftlichen Stand gebracht und in der didaktischen Darstellung verbessert. Vor allem die Kapitel zur Petrologie magmatischer und metamorpher Gesteine, zur Genese von Erzlagerstätten und zum Aufbau des Erdinneren wurden weitgehend überarbeitet. Ein neues Layout und Format runden die Neugestaltung dieser 7. Auflage ab.

Chemistry, Physical organic. --- Mineralogy. --- Geology. --- Physical geography. --- Paleontology . --- Geography. --- Physical Chemistry. --- Geophysics/Geodesy. --- Paleontology. --- Geography, general. --- Physical chemistry. --- Geophysics.

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At the beginning of the twentieth century, engineers and technologists would have recognized the importance of adhesion in two main aspects: First, in the display of friction between surfaces — at the time a topic of growing importance to engineers; the second in crafts requiring the joining of materials — principally wood—to form engineering structures. While physical scientists would have admitted the adhesive properties of glues, gels, and certain pastes, they regarded them as materials of uncertain formulation, too impure to be amenable to precise experiment. Biological scientists were aware also of adhesive phenomena, but the science was supported by documentation rather than understanding. By the end of the century, adhesion and adhesives were playing a crucial and deliberate role in the formulation of materials, in the design and manufacture of engineering structures without weakening rivets or pins, and in the use of thin sections and intricate shapes. Miniaturization down to the micro- and now to the nano-level of mechanical, electrical, electronic, and optical devices relied heavily on the understanding and the technology of adhesion. For most of the century, physical scientists were aware that the states of matter, whether gas, liquid, or solid, were determined by the competition between thermal energy and int- molecular binding forces. Then the solid state had to be differentiated into crystals, amorphous glasses, metals, etc. , so the importance of the molecular attractions in determining stiffness and strength became clearer.

Adhesion. --- Surface chemistry. --- Chemistry. --- Physical chemistry. --- Polymers. --- Physical Chemistry. --- Polymer Sciences. --- Chemistry, Physical organic. --- Polymers  . --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry