Products related to Atomic:
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Atomic Force Microscopy for Energy Research
Atomic force microscopy (AFM) can be used to analyze and measure the physical properties of all kinds of materials at nanoscale in the atmosphere, liquid phase, and ultra-high vacuum environment.It has become an important tool for nanoscience research.In this book, the basic principles of functional AFM techniques and their applications in energy materials—such as lithium-ion batteries, solar cells, and other energy-related materials—are addressed. FEATURES First book to focus on application of AFM for energy research Details the use of advanced AFM and addresses many types of functional AFM tools Enables readers to operate an AFM instrument successfully and to understand the data obtained Covers new achievements in AFM instruments, including electrochemical strain microscopy, and how AFM is being combined with other new methods such as infrared (IR) spectroscopyWith its substantial content and logical structure, Atomic Force Microscopy for Energy Research is a valuable reference for researchers in materials science, chemistry, and physics who are working with AFM or planning to use it in their own fields of research, especially energy research.
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Fundamentals and Application of Atomic Force Microscopy for Food Research
Fundamentals and Application of Atomic Force Microscopy for Food Research explains how to get reliable AFM data and current application progress of AFM in different food substances.Sections focus on an Introduction to AFM for food research and Applications of AFM for different types of food substances.Edited by 3 experts in the field of nanotechnology and food science, this book reduces the difficulty of AFM application and shortens the learning time for new hands.Until now, no such book has systematically described the application of Atomic Force Microscopy (AFM) for food research. Many scientists in the field of food science and engineering need to evaluate their developed foods and food contact surfaces at nanoscale.However, there is a steep learning curve for new hands, hence the need for this comprehensive resource.
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Astronomical Spectroscopy: An Introduction To The Atomic And Molecular Physics Of Astronomical Spectroscopy (Third Edition)
'The first two editions of this textbook have received well-deserved high acclaims, and this - the third edition - deserves no less.Its explanations of the whole gamut of atomic and molecular spectroscopy provide a solid grasp of the theory as well as how to understand such spectra in practice.It thus makes an ideal companion to books that start from the observational aspect of spectroscopy, whether in the lab or at the telescope ...This new edition of TennysonaEURO (TM)s book ought to be in the library of every astronomical department.'The Observatory Magazine'It closely follows the course given to third year UCL undergraduates, and the worked examples have surely been tested on students ...The last two chapters serve as an effective appendix on more specialised topics in atomic and molecular theory.'Contemporary PhysicsThe third edition of Astronomical Spectroscopy examines the physics necessary to understand and interpret astronomical spectra.It offers a step-by-step guide to the atomic and molecular physics involved in providing astronomical spectra starting from the relatively simple hydrogen atom and working its way to the spectroscopy of small molecules.Based on UCL course material, this book uses actual astronomical spectra to illustrate the theoretical aspects of the book to give the reader a feel for such spectra as well as an awareness of what information can be retrieved from them.It also provides comprehensive exercises, with answers given, to aid understanding.
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Astronomical Spectroscopy: An Introduction To The Atomic And Molecular Physics Of Astronomical Spectroscopy (Third Edition)
'The first two editions of this textbook have received well-deserved high acclaims, and this - the third edition - deserves no less.Its explanations of the whole gamut of atomic and molecular spectroscopy provide a solid grasp of the theory as well as how to understand such spectra in practice.It thus makes an ideal companion to books that start from the observational aspect of spectroscopy, whether in the lab or at the telescope ...This new edition of TennysonaEURO (TM)s book ought to be in the library of every astronomical department.'The Observatory Magazine'It closely follows the course given to third year UCL undergraduates, and the worked examples have surely been tested on students ...The last two chapters serve as an effective appendix on more specialised topics in atomic and molecular theory.'Contemporary PhysicsThe third edition of Astronomical Spectroscopy examines the physics necessary to understand and interpret astronomical spectra.It offers a step-by-step guide to the atomic and molecular physics involved in providing astronomical spectra starting from the relatively simple hydrogen atom and working its way to the spectroscopy of small molecules.Based on UCL course material, this book uses actual astronomical spectra to illustrate the theoretical aspects of the book to give the reader a feel for such spectra as well as an awareness of what information can be retrieved from them.It also provides comprehensive exercises, with answers given, to aid understanding.
Price: 45.00 £ | Shipping*: 0.00 £
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Can you explain the Rutherford scattering experiment atomic model?
The Rutherford scattering experiment was conducted by physicist Ernest Rutherford in 1909. In this experiment, Rutherford bombarded a thin gold foil with alpha particles and observed their scattering patterns. According to the prevailing atomic model at the time, the plum pudding model, it was expected that the alpha particles would pass through the foil with minimal deflection. However, Rutherford's observations showed that some alpha particles were deflected at large angles, and even some were reflected back. This led to the development of the nuclear model of the atom, in which the atom is mostly empty space with a small, dense nucleus at the center. This experiment provided evidence for the existence of a positively charged nucleus within the atom, leading to a significant shift in our understanding of atomic structure.
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What is atomic mass in atomic physics?
Atomic mass in atomic physics refers to the mass of an atom, which is the sum of the masses of its protons, neutrons, and electrons. It is typically measured in atomic mass units (amu) and is used to compare the masses of different atoms. The atomic mass is an important factor in determining the properties and behavior of atoms, as it influences their interactions with other atoms and molecules.
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Do atomic bomb shelters protect against atomic bombs?
Atomic bomb shelters are designed to provide protection against the initial blast, heat, and radiation from an atomic bomb. They are constructed with thick walls and ceilings made of reinforced concrete or other sturdy materials to withstand the force of the explosion. While no shelter can guarantee complete protection from the devastation of an atomic bomb, a well-built and properly stocked shelter can significantly increase the chances of survival for those inside. However, it's important to note that the long-term effects of radiation exposure may still pose a threat to those who seek refuge in a bomb shelter.
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Can an atomic bomb or atomic missile be intercepted?
Intercepting an atomic bomb or atomic missile is extremely challenging due to their high speed and destructive power. While there are missile defense systems in place that are designed to intercept incoming missiles, the success rate is not guaranteed. Additionally, the sheer devastation caused by an atomic bomb makes interception efforts even more difficult. Overall, while interception is theoretically possible, it remains a complex and uncertain task.
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Atomic Physics for Everyone : An Introduction to Atomic Physics, Quantum Mechanics, and Precision Spectroscopy with No College-Level Prerequisites
This open access textbook introduces beginning undergraduate students and high school students to the world of quantum mechanics and atomic spectroscopy.Requiring no previous knowledge of physics and no math beyond basic algebra and sines and cosines, this book focuses on concepts to make the excitement of atomic physics more accessible for learners than ever before. It comes replete with learning goals, exercises and solutions, and an optional experimental component, making this text readily adoptable for both the classroom and the undergraduate lab. The book takes the reader on a lively and engaging tour through topics at the forefront of current science, including photons, quantum numbers, atomic energy levels, some different spectroscopy techniques, electronic structure, atomic notation, angular momentum, hyperfine structure, isotope shifts, the strong force, an introduction to the Standard Model of Particle Physics, and more.This is an open access book.
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Raman Scattering on Emerging Semiconductors and Oxides
Raman Scattering on Emerging Semiconductors and Oxides presents Raman scattering studies.It describes the key fundamental elements in applying Raman spectroscopies to various semiconductors and oxides without complicated and deep Raman theories. Across nine chapters, it covers:• SiC and IV-IV semiconductors,• III-GaN and nitride semiconductors,• III-V and II-VI semiconductors,• ZnO-based and GaO-based semiconducting oxides,• Graphene, ferroelectric oxides, and other emerging materials,• Wide-bandgap semiconductors of SiC, GaN, and ZnO, and• Ultra-wide gap semiconductors of AlN, Ga2O3, and graphene. Key achievements from the author and collaborators in the above fields are referred to and cited with typical Raman spectral graphs and analyses.Written for engineers, scientists, and academics, this comprehensive book will be fundamental for newcomers in Raman spectroscopy. Zhe Chuan Feng has had an impressive career spanning many years of important work in engineering and tech, including as a professor at the Graduate Institute of Photonics & Optoelectronics and Department of Electrical Engineering, National Taiwan University, Taipei; establishing the Science Exploring Lab; joining Kennesaw State University as an adjunct professor, part-time; and at the Department of Electrical and Computer Engineering, Southern Polytechnic College of Engineering and Engineering Technology.Currently, he is focusing on materials research for LED, III-nitrides, SiC, ZnO, other semiconductors/oxides, and nanostructures and has devoted time to materials research and growth of III-V and II-VI compounds, LED, III nitrides, SiC, ZnO, GaO, and other semiconductors/oxides. Professor Feng has also edited and published multiple review books in his field, alongside authoring scientific journal papers and conference/proceeding papers.He has organized symposiums and been an invited speaker at different international conferences and universities.He has also served as a guest editor for special journal issues.
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Atomic Spectra And Atomic Structure
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Atomic
'Atomic' is an original soundtrack album by Scottish post-rock band Mogwai for Mark Cousins' documentary, 'Atomic, Living in Dread and Promise'. The song titles allude to atomic bombs such as Little Boy and Tzar Bomba as well as scientific or military objects and concepts connected with nuclear power such as SCRAM, Uranium-235 and Pripyat, the abandoned city near the Chernobyl Nuclear Power Plant in Ukraine.
Price: 13.99 £ | Shipping*: 3.99 £
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From which materials are atomic bomb shelters built to be radiation-proof?
Atomic bomb shelters are typically built using materials that can provide protection from radiation, such as thick concrete or reinforced steel. These materials are chosen for their ability to absorb and block radiation, providing a barrier between the shelter's occupants and the harmful effects of nuclear fallout. Additionally, the shelters may also be equipped with air filtration systems to prevent the entry of radioactive particles. Overall, the goal is to create a structure that can effectively shield individuals from the dangers of radiation in the event of a nuclear attack.
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Why doesn't the atomic shell collapse into the atomic nucleus?
The atomic shell doesn't collapse into the atomic nucleus because of the electromagnetic force. This force between the negatively charged electrons in the shell and the positively charged protons in the nucleus creates a stable balance, preventing the collapse. Additionally, the principles of quantum mechanics dictate that electrons occupy specific energy levels within the atom, further stabilizing the structure and preventing collapse.
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What is the atomic number and atomic mass in chemistry?
The atomic number in chemistry is the number of protons found in the nucleus of an atom. It is represented by the letter Z in the periodic table. The atomic mass, on the other hand, is the average mass of an atom of an element, taking into account the different isotopes and their relative abundance. It is represented by the letter A in the periodic table. The atomic mass is measured in atomic mass units (amu) and is the sum of the number of protons and neutrons in the nucleus of an atom.
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What are the differences between atomic nucleus and atomic shell?
The atomic nucleus is the central part of an atom that contains protons and neutrons, while the atomic shell is the outer part of an atom where electrons are located. The nucleus is positively charged due to the presence of protons, while the shell is negatively charged due to the electrons. The nucleus is much smaller in size compared to the entire atom, while the shell occupies most of the volume of the atom.
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