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This book comprehensively reflects the summary of theoretical and experimental studies whose conclusions are effective for optimized structural synthesis in precision elasticity, as well as demonstrates a large experience and options in the synthesis and application of precision elastic guides, mechanisms, correctors, transducers, elastic helicoids, and sensors in instruments and machines including their miniaturization for atomic force microscopy and other advanced solutions. The main focus of this book is in the possible simplification of the corresponding analytical apparatus. This tractable and digestible approach allows for increase of accuracy, sensitivity, responsiveness, and functional ranges in the synthesized precision elastic systems.
Elasticity. --- Elastic properties --- Young's modulus --- Mathematical physics --- Matter --- Statics --- Rheology --- Strains and stresses --- Strength of materials --- Properties --- Mechanics. --- Mechanics, Applied. --- Engineering design. --- Mechanics, applied. --- Classical Mechanics. --- Measurement Science and Instrumentation. --- Solid Mechanics. --- Engineering Design. --- Theoretical and Applied Mechanics. --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Design, Engineering --- Engineering --- Industrial design --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Design --- Physical measurements. --- Measurement . --- Measurements, Physical --- Measurement --- Measuring --- Mensuration --- Mathematics --- Technology --- Metrology --- Physical measurements
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Nucleic acids --- Molecular dynamics. --- Computer simulation. --- Dynamics, Molecular --- Dynamics --- Polynucleotides --- Biomolecules
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Advanced Mechanical Models of DNA Elasticity includes coverage on 17 different DNA models and the role of elasticity in biological functions with extensive references. The novel advanced helicoidal model described reflects the direct connection between the molecule helix structure and its specific properties, including nonlinear features and transitions. It provides an introduction to the state of the field of DNA mechanics, known and widely used models with their short analysis, as well as coverage on experimental methods and data, the influence of electrical, magnetic, ionic conditions on the persistence length, and dynamics with viscosity influence. It then addresses the need to understand the nature of the non-linear overstretching transition of DNA under force and why DNA has a negative twist-stretch coupling.
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This book comprehensively reflects the summary of theoretical and experimental studies whose conclusions are effective for optimized structural synthesis in precision elasticity, as well as demonstrates a large experience and options in the synthesis and application of precision elastic guides, mechanisms, correctors, transducers, elastic helicoids, and sensors in instruments and machines including their miniaturization for atomic force microscopy and other advanced solutions. The main focus of this book is in the possible simplification of the corresponding analytical apparatus. This tractable and digestible approach allows for increase of accuracy, sensitivity, responsiveness, and functional ranges in the synthesized precision elastic systems.
Classical mechanics. Field theory --- Fluid mechanics --- mechanica
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Classical mechanics. Field theory --- Fluid mechanics --- mechanica
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