This new volume offers a state-of-the-art report on various recent scientific developments in the theory of engineering materials. It addresses the close connection between modeling and experimental methods for studying a wide range of nanomaterials and nanostructures.Focusing on practical applications and industry needs analyzed by a selected group of active researchers in the field. The volume also looks at how the advancement of computational tools have enabled nanoscopic prediction of physical and chemical properties and how they can be used to simulate and analyze nanostructures.Materials Modeling for Macro to Micro/Nano Scale Systems is addressed to a wide readership and will be useful for undergraduate and graduate students and as a reference source for professionals including engineers and others working on different application of nanomaterials in engineering. An overview of approaches for designing nanostructured materials. It covers several aspects of the simulation and design of nanomaterials. The volume also looks at how the advancement of computational tools have enabled nanoscopic prediction of physical and chemical properties and how they can be used to simulate and analyze nanostructures. and supported by a solid outlining of theoretical background applied mathematicians bactericidal effect; barium titanate nanoparticles; barium-zinc oxide nanoparticles; carbon nanotube; ceria nanostructures; composite materials; elastoplastic transition stress buildup; energy dissipation; genetic algorithm approach; graphene sheet nanocomposite; kinetic analysis; materials modeling; nanocrystalline perovskites; nanothin perovskite single-crystalline wafers; nonlocal thermoelastic solid; ocean wave flow; photocatalytic removal; powder mixed wire electric discharge machining; thermal behavior; thermal decomposition the volume provides an overview of approaches that have been developed for designing nanostructured materials. It also covers several aspects of the simulation and design of nanomaterials