Products related to X-ray:
-
In-Situ X-ray Tomographic Study of Materials
This book illustrates the exciting possibilities being opened up by X-ray computed tomography (CT) to follow the behavior of materials under conditions as close as possible to those encountered during their manufacture or in operation.The scientific chapters selected for this book describe results obtained using synchrotron or laboratory devices during in situ or ex situ experiments. They characterize microstructures across length scales ranging from tens of nanometers to a few tens of micrometers.In this collection, X-ray CT shines a light on the mechanical properties of engineering materials, such as aluminum or magnesium alloys, stainless steel, aluminum, polymer composites, or ceramic foam. In these experiments, X-ray CT is able to image and quantify the damage occurring during tensile, compression, indentation, or fatigue tests.Of course, X-ray CT can illuminate the structure and behavior of natural materials too. Here it is applied to bone or natural snow to study their mechanical behavior, as well as materials from the agri-food sector. Its versatility is exemplified by analyses of topics as diverse as the removal of olive oil from kitchen sponges by squeezing and rinsing, to the effect of temperature changes on the structure of ice cream.Some chapters focus on changes occurring over time, at different temperatures, humidity levels, pressure, as in the case of heat treatments of aluminum alloy, concrete ageing, or ceramic foaming processes.In response to the challenges of climate change, research activities on batteries have intensified. The non-destructive and three-dimensional nature of X-ray CT have made it a very valuable tool for monitoring their evolution during charge and discharge cycles, as illustrated by some of the contributions.Issues relating to the technical development of CT are also covered, for example, helical CT, diffraction contrast tomography, or the use of contrast agents. The effects induced by the exposure of materials to X-ray radiation are also discussed.Finally, aspects relating to post-processing (e.g., procedures to improve the reconstruction of samples that move during in situ tests) and data analysis (e.g., the application of digital volume correlation (DVC) the 3D analogue of digital image correlation (DIC), and the comparison between in situ experiments and finite element simulations) are covered. Taken together these studies show the art of what is possible, the ways to further enhance the existing methods, and the possibilities for the future in relation to the In situ X-ray Tomographic Study of Materials.
Price: 64.67 £ | Shipping*: 0.00 £ -
X-ray
Object Lessons is a series of short, beautifully designed books about the hidden lives of ordinary things. X-rays are powerful. Moving through objects undetected, revealing the body as a tryptic of skin, tissue, and bone.X-rays gave rise to a transparent world and the belief that transparency conveys truth.It stands to reason, then, that our relationship with X-rays would be a complicated one of fear and fascination, acceptance and resistance, confusion and curiosity. In X-ray, Nicole Lobdell explores when, where, and how we use X-rays, what meanings we give them, what metaphors we make out of them, and why, despite our fears, we're still fascinated with them.In doing so, she draws from a variety of fields, including the history of medicine, science and technology studies, literature, art, material culture, film, comics, gender studies, architecture, and industrial design. Object Lessons is published in partnership with an essay series in The Atlantic.
Price: 9.99 £ | Shipping*: 3.99 £ -
X-Ray Architecture
This book explores the impact of medical discourse and diagnostic technologies on the formation, representation, and reception of modern architecture.It challenges the normal understanding of modern architecture by proposing that the architecture of the early twentieth century was shaped by the dominant medical obsession of its time: tuberculosis and its primary diagnostic tool, the X-ray.If architectural discourse has from its beginning associated building and body, the body that it describes is the medical body, reconstructed by each new theory of health.Modern architects pre- sented their architecture as a kind of medical instrument for protecting and enhancing the body.X-ray technology and modern architecture were born around the same time and evolved in parallel.While the X-ray exposed the inside of the body to the public eye, the modern building unveiled its interior, inverting the relationship between private and public.Colomina suggests that if we want to talk about the state of the art in buildings, we should look to the dominant obsessions about illness and the latest techniques of imaging the body-and ask what effects they may have on the way we conceive architecture.
Price: 36.00 £ | Shipping*: 0.00 £ -
X-Ray Crystallography
The renowned Oxford Chemistry Primers series, which provides focused introductions to a range of important topics in chemistry, has been refreshed and updated to suit the needs of today's students, lecturers, and postgraduate researchers.The rigorous, yet accessible, treatment of each subject area is ideal for those wanting a primer in a given topic to prepare them for more advanced study or research.Moreover, cutting-edge examples and applications throughout the texts show the relevance of the chemistry being described to current research and industry.Learning features provided in the primers, including questions at the end of every chapter and interactive online MCQs, encourage active learning and promote understanding.Furthermore, frequent diagrams, margin notes, further reading, and glossary definitions all help to enhance a student's understanding of these essential areas of chemistry. This primer provides a succinct account of the technique of X-ray crystallography for determining structure in the solid state.Engaging examples of practical applications are described throughout, emphasising the importance of this field to modern research and industry.Furthermore, end of chapter exercises and online multiple choice questions enable students to test their own understanding of the subject. Online Resource CentreThe Online Resource Centre to accompany X-Ray Crystallography features: For registered adopters of the text:· Figures from the book available to download For students: · Downloadable CIF data files· Multiple-choice questions for self-directed learning · Full worked solutions to the end-of-chapter exercises
Price: 32.99 £ | Shipping*: 0.00 £
-
Do physiotherapists also have knowledge of X-ray images?
Yes, physiotherapists often have knowledge of X-ray images as part of their training and practice. They may use X-ray images to help diagnose and understand the extent of a patient's injury or condition, which can inform their treatment plan. While physiotherapists are not typically responsible for interpreting X-ray images, they may collaborate with radiologists or other healthcare professionals to ensure they have a comprehensive understanding of their patient's condition. Overall, knowledge of X-ray images can be an important tool for physiotherapists in providing effective care for their patients.
-
Is X-ray radiation radioactive?
X-ray radiation is not considered radioactive. X-rays are a form of electromagnetic radiation, similar to visible light but with higher energy. They are produced by machines such as X-ray tubes and do not involve the decay of unstable atomic nuclei, which is characteristic of radioactive materials.
-
Does X-ray cause damage?
Yes, X-rays can cause damage to living tissues. Exposure to high levels of X-rays can lead to cell damage, DNA mutations, and an increased risk of cancer. It is important to limit exposure to X-rays and follow safety protocols to minimize the potential for harm. Medical professionals take precautions to ensure that the benefits of using X-rays for diagnostic purposes outweigh the potential risks.
-
What is X-ray energy?
X-ray energy refers to the electromagnetic radiation produced by high-energy photons with wavelengths shorter than ultraviolet light. This energy is commonly used in medical imaging to create detailed images of the inside of the body, as X-rays can penetrate tissues and create images of bones, organs, and other structures. The energy of X-rays can be adjusted to penetrate different materials to varying degrees, allowing for a range of applications in fields such as medicine, security screening, and industrial testing.
Similar search terms for X-ray:
-
X Ray Vision
Price: 7.99 £ | Shipping*: 3.99 £ -
'X-Ray' T-Shirt
'X-Ray' T-Shirt
Price: 25 £ | Shipping*: £ -
Zoopertown: X-Ray Rabbit
Meet Zoopertown's most brilliant Zooperheroes:Crash-Bang Koala, Zip-Zap Giraffe, Snap-Crack Croc, Zoom-Zoom Zebra and X-Ray Rabbit!No job too big, no job too small - so when ALL the food in Zoopertown goes missing, the Zooperheroes are right on the case.Could a villainously bad baboon be behind the disappearance?There’s only one way to find out! Here we go, guys . . . To the Zoopercopters! The first in an action-packed, super-charged ZOOPER series, perfect for superhero fans EVERYWHERE!
Price: 6.99 £ | Shipping*: 3.99 £ -
Portable Geiger Counter Nuclear Radiation Detector Personal Dosimeter X-ray γ-ray β-ray
Portable Geiger Counter Nuclear Radiation Detector Personal Dosimeter X-ray γ-ray β-ray
Price: 21.09 € | Shipping*: 0 €
-
What are X-ray spectra?
X-ray spectra are the distribution of X-ray energies emitted by a material when it is bombarded with high-energy electrons or X-rays. These spectra provide information about the elemental composition and electronic structure of the material. By analyzing the peaks and shapes of the X-ray spectra, scientists can identify the elements present in the material and gain insight into its physical and chemical properties. X-ray spectra are widely used in various fields such as materials science, chemistry, and medicine for characterizing and analyzing different types of materials.
-
What is X-ray radiation?
X-ray radiation is a form of electromagnetic radiation that has a shorter wavelength and higher energy than visible light. It is commonly used in medical imaging to create detailed images of the inside of the body, as well as in industrial and security applications. X-rays are able to penetrate through soft tissues and produce images of bones and other dense structures, making them a valuable tool for diagnosing and monitoring various medical conditions. However, excessive exposure to X-ray radiation can be harmful and increase the risk of developing cancer.
-
What is X-ray metal?
X-ray metal refers to a type of metal that is used in the construction of X-ray machines and equipment. This metal is specifically chosen for its ability to block or absorb X-rays, making it an essential component in the production of X-ray machines. Typically, materials such as lead, tungsten, and bismuth are used in the manufacturing of X-ray metal due to their high density and ability to effectively block X-rays.
-
"X-ray during the period?"
It is unclear what "X-ray during the period" refers to without more context. If you are asking about getting an X-ray during a menstrual period, it is generally safe to have an X-ray during this time. However, it is important to inform the healthcare provider about your menstrual cycle and any possibility of pregnancy, as they may take extra precautions. If you are asking about the historical use of X-rays during a specific time period, it would depend on the advancements in medical technology during that time.
* All prices are inclusive of VAT and, if applicable, plus shipping costs. The offer information is based on the details provided by the respective shop and is updated through automated processes. Real-time updates do not occur, so deviations can occur in individual cases.