X-ray Documented Essay Example | Topics and Well Written Essays - 1000 words

roentgen ray Documented - canvas ExampleThis means that significants science and engineering op erates in a world characterized by high expert advances because technological advancements created from advanced materials. The significance of materials science and engineering started a long time ago. It has existed for many years. Nowadays, mass only look at the names of eras and realize that materials have been helpful in the creation of civilization. These eras admit the Stone Age, the Bronze Age and the Iron Age. In fact, people have branded the current era as the material era because of the contribution that material engineering has provided. roentgenograms use materials that are provided by the technology in material science and engineering. The history of the development of science and technology has always been directly associate to the progress of materials science and engineering. In recent times, the expansion of concentration in the push through qualities of solids h as become a feature of this field of knowledge. Nevertheless, it is not surprising that interactions with material are realized through the free surface of the materials. Surface layers can unfalteringly control the application of the whole quantity of material. The free surface is requisite for a large amount of material and mechanical features of materials that include yield strength, proportionality limit and material behavior in processes of fragile and low capability fracture (Sham 1012). The concept of roentgenograms was first discovered by a physicist from Germany called Wilhelm Roentgen in 1895. However, A.W. Goodspeed was the first person to make the X-ray discovery, on February 22, 1890. Because there was no information that could prove that he had discovered X-ray, Goodspeed named his discovery an accident and did not take any extension for the work he had done (Dyson 1). In the discovery, Wilhelm enclosed a glass tube inwardly of a black paper box. He attached a wiri ng that ran inside the glass tube that resembled the inside of a get down bulb. This enabled the electrical currents to build up in the glass tube. He then machine-accessible the tube to an induction coil apparatus that allowed an electric current to pass through the tube. This way, a pass green colored light could be seen across the room. He decided to do this in a different way to be sure of what he had seen. He lit a match junction and discovered that there was a small screen in the room which was coated with a chemical. The inflaming from the match stick sent the current along the tube. This made the exact same light to go forth again. As he continued with his experiments, he discovered that these rays could penetrate through objects, such as woodland and metal. Accidentally, his hand came in contact with the tube one day, and saw shadows of his hand with darker shadows that represented the bones. When he locomote his hand, the shadow on the screen also moved. He named t he shadow the first x-ray picture (Lewin, Paradijs and Heuvel 373). X-ray works in a unique way. As the wavelengths of light diminish, they augment in terms of the energy that is produced. X-rays have lesser wavelengths, which cause higher energy compared to ultraviolet waves. This is the reason as to why professionals take on X-rays with respect to the energy they produce rather than their wavelength. This is partly because X-rays have minute wavelengths. Another reason is because X-ray light works like particles as opposed to waves. X-ray detectors gather definite photons of X-ray light that are remarkably different from the radio telescopes that contain large tableware designed to focus radio waves. When an X-ray of a persons body is done in a hospital, professionals put X-ray bleak films on one side of the patient