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The mathematical combinatorics is a subject that applying combinatorial notion to all mathematics and all sciences for understanding the reality of things in the universe. The International J. Mathematical Combinatorics is a fully refereed international journal, sponsored by the MADIS of Chinese Academy of Sciences and published in USA quarterly, which publishes original research papers and survey articles in all aspects of mathematical combinatorics, Smarandache multi-spaces, Smarandache geometries, non-Euclidean geometry, topology and their applications to other sciences.
A solid collection of interdisciplinary review articles on the latest developments in adhesion science and adhesives technology With the ever-increasing amount of research being published, it is a Herculean task to be fully conversant with the latest research developments in any field, and the arena of adhesion and adhesives is no exception. Thus, topical review articles provide an alternate and very efficient way to stay abreast of the state-of-the-art in many subjects representing the field of adhesion science and adhesives. Based on the success of the preceding volumes in this series "Progress in Adhesion and Adhesives"), the present volume comprises 12 review articles published in Volume 5 (2017) of Reviews of Adhesion and Adhesives. The subject of these 12 reviews fall into the following general areas: 1. Nanoparticles in reinforced polymeric composites. 2. Wettability behavior and its modification, including superhydrophobic surfaces. 3. Ways to promote adhesion, including rubber adhesion. 4. Adhesives and adhesive joints 5. Dental adhesion. The topics covered include: Nanoparticles as interphase modifiers in fiber reinforced polymeric composites; fabrication of micro/nano patterns on polymeric substrates to control wettability behavior; plasma processing of aluminum alloys to promote adhesion; UV-curing of adhesives; functionally graded adhesively bonded joints; adhesion between unvulgarized elastomers; electrowetting for digital microfluidics; control of biofilm at the tooth-restoration bonding interface; easy-to-clean superhydrophobic coatings; cyanoacrylates; promotion of resin-dentin bond longevity in adhesive dentistry; and effects of nanoparticles on nanocomposites Mode I and Mode II fractures.
Remarkable progress has been achieved within recent years in developing flexible, wearable, and stretchable (FWS) electronics. These electronics will play an increasingly significant role in the future of electronics and will open new product paradigms that conventional semiconductors are not capable of. This is because flexible electronics will allow us to build flexible circuits and devices on a substrate that can be bent, stretched, or folded without losing functionality. This revolutionary change will impact how we interact with the world around us. Future electronic devices will use flexible electronics as part of ambient intelligence and ubiquitous computing for many different applications such as consumer electronics, medical, healthcare, and security devices. Thus, these devices have the potential to create a huge market all over the world. Flexible, Wearable, and Stretchable Electronics, provide a comprehensive technological review of the state-of-the-art developments in FWS electronics. This book offers the reader a taste of what is possible with FWS electronics and describes how these electronics can provide unique solutions for a wide variety of applications. Furthermore, the book introduces and explains new applications of flexible technology that has opened up the future of FWS electronics.
This Volume 1 of Part II considers the factors that make science progress. It lays out the differences between normal science and pseudoscience by showing the importance of the scientific method in the advancement of science. It introduces the concept of Truth in science by raising the point that even though truth is based on the scientific method, can science be true? Can it depict reality? The author focuses on modern science, which, he thinks, was born thanks to the Scientific Revolution which started with Galileo Galilei and led to the Industrial Revolution. The impacts of the latter is analyzed in light modernism, modernization, and modernity, all three linked to scientific progress. The book also talks about the Newtonian scientific leap – by analyzing particularly the then social and political fabrics of England – and Albert Einstein by showing how he changed history. According to the author, our very physical world can help us understand scientific progress. So, he explains, among other things, the structure of atoms and molecules, the role of physics in the understanding of our universe, Quantum Mechanics, and the importance of Higgs-Boson. On the other hand, the book is a stunning revelation of how important information is to scientific progress. To make his point, the author, first, talks about John Vincent Atanasoff as the Father of computer thanks to the invention of his ABC computer and then, Alan Turing as the Father of modern computer thanks to his Turing Test and his views on Artificial Intelligence. Both men played a momentous role in the Digital Revolution and in the Information Age, according to the book. Finally, the author talks about nanotechnology, which explores the world of small, meaning at the atomic and the molecular levels and is an inescapable tool in the molecular biology revolution which, itself, is an important factor in scientific progress and in transhumanism or human enhancement defined as the ideology according to which man can surpass his present state by improving his genetic material.
A thing is complex, and hybrid with other things sometimes. Then, what is the reality of a thing? The reality of a thing is its state of existed, exists, or will exist in the world, independent on the understanding of human beings, which implies that the reality holds on by human beings maybe local or gradual, not the reality of a thing. Hence, to hold on the reality of things is the main objective of science in the history of human development.
