X-ray machines provide images of the structure of the body for diagnosing various illness that someone might be suffering from. It is mostly used in detecting fractures in bones through a very quick and painless test. Having the knowledge to interpret the images and identify where the problems lies within a bone structure is a very complicated process as it requires one to have the knowledge of how the body absorbs the x-rays. Apart from having the knowledge of x-ray absorption in the body, successful interpretation of the x-ray images calls for a series of trials to test one’s strength in interpreting the images. It is a very challenging as well as intriguing task of going through various x-ray images while deducing information from the images.
Depending on the density of the material, x-ray beams are absorbed in different amounts as they pass in the body (Attwood & Sakdinawat, 2017). The bone is very dense and thus it appears as white in x-rays. The same applies to metals thus metallic object can be detected in the body. Air is less dense which makes it appear as dark colorations which explains why the lungs shows up as black. Muscles and fat have the same degree of density and are shown as shades of gray. Bone fractures can be spotted as black colorations within a white area which represents the bone structure. Multiple trials in assessing x-ray images finesses the accuracy of pin pointing areas that are affected. Trial and error also comes in handy in ruling out unlikely outcomes therefore leading to much accurate information. In this case, a bone fracture was the issue and it was easily identified as the bones structures could be clearly identified as the white markings on the x-ray image. A fractured bone has clefts that are filled with air which making the area with the fracture be shown in black markings.
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Trial and error is one of the method that has been widely used in narrowing down to solutions. Most commonly it is a technique used by beginners who are not equipped with the vast experience of finding solutions through application of scientific and documented procedures. For successful application of trial and error methods it is important to be well equipped with facts on the area the trials are to be applied. This is very important as it helps in eliminating processes or outcomes that do not amount to any concrete solution. Trials and error method presents outcomes that do have a similar pattern of events. Therefore, it is necessary to identify and observe these patterns as they may contribute in finding a solution. Trial and error requires a lot of resources and time to find the best solutions. Some may take a little time while others may take a long time to find a solution.
X-rays have a wide variety of usage and some were identified through trial and error since their wide areas of application were still not known. In the process of carrying out other experiments other uses of x-rays emerged which explains the many uses of x-rays in the current society. Some of the processes of working with x-rays are trial and error processes since they are no definite parameters that can actually account for the best final outcome (Huck et al., 2017). Many variables affect x-rays but with the best combination of trials it is highly likely to get the expected results. A good example of a trial and error process is taking a radiograph which requires a few process to get the best radiograph. A radiograph is affected by many variables that affect the final radiograph.
References
Attwood, D., & Sakdinawat, A. (2017). X-rays and extreme ultraviolet radiation: principles and applications . Cambridge university press.
Huck, S., Normann, H. T., & Oechssler, J. (2017). Through trial and error to collusion. International Economic Review , Vol. 45 No.1, pg.205-224.
