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Wednesday, July 1, 2020

Liquid Crystal Displays

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Jenny Wang


Ms. Monroe


English


1 Jan 00


Cheap University Papers on Liquid Crystal Displays


Liquid Crystal Displays


Liquid crystal display technology has integrated itself into many facets of our daily lives. It has gradually become so commonplace that we as consumers barely even take notice. Going about our daily lives never thinking twice about how this technology came to be and what makes it possible. How many of us have digital watches? How many of us use cell phones, personal digital assistants, pagers, and compact disk players? Consumers are not concerned with how or why the displays work, just that there is a display and that it functions properly. It is intriguing to think of how electronic devices would have developed during the twentieth century had it not been for this specific type of technology. Liquid crystal displays have truly been instrumental in the progression and development of electronic devices. To understand what a liquid crystal display is we must first understand what liquid crystals are. The discovery of this type of matter and its subsequent development is what has led to the technology we use today.


The existence of liquid crystals was unknown to the world until a chance discovery by three scientists by the names of Virchow, Mettenheimer, and Valentin during the mid-nineteenth century. They discovered that the nerve fibers, which they were studying, formed a fluid substance and behaved strangely when viewed under polarized light. Concluding that this was an abnormality with the experiment they never realized that they had stumbled across a new phase of matter (Elston). Later in 1877, a scientist by the name of Otto Lehman discovered the second piece of the puzzle. At the


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time he was conducting experiments using polarizing microscopes to study the phase transitions of various substances. What he discovered was that a particular substance would change from a clear liquid, to a cloudy liquid before crystallizing. Yet just as the other scientists before him had done, he also came to the wrong conclusions regarding his experiment. Noting that the strange behavior he had observed was just an imperfect phase transition from liquid to crystalline (Walker).


It was not until many years later that two scientists by the names of Gatterman and Ritschke produced the first synthetic liquid crystal. This was quite an accomplishment because up until 180 all the liquid crystalline substances that scientists had studied had been naturally occurring. Next on the discovery timeline is a scientist by the name of George Friedel. He is attributed with being the first to present us with how electric fields affect the way in which liquid crystals behave. Two brilliant German scientists, Oseen and Zocher, followed him and they helped develop a mathematical basis for the study of liquid crystals. As with any invention it had taken many years for the right technology to develop making it possible to exploit the capabilities of liquid crystals. So finally we arrive at about the middle of the twentieth century. By this time many minds in the scientific community had believed that the important characteristics of liquid crystals had been discovered, but this was to be false. Scientists from the United States, England, and the Soviet Union continued working on and studying liquid crystals, and in 168 an American company by the name of RCA demonstrated to the world the first liquid crystal display (Elston).


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Now the term liquid crystals might seem like a contradiction, but it is not. Liquid crystals have the properties of both liquids and crystals. Like a liquid it has the


ability to flow, but also like crystals, it molecules are partially lined up. Molecules in this state retain their sense of order, but like a liquid its molecules can move around into different positions. Liquid crystals are described as being closer to a liquid state than a solid. The reason for this being, the amount of heat needed to change basic substances such as solids into liquids. To accomplish this requires a great deal of heat. Yet to turn a liquid crystal into a completely liquid form, not much heat energy is needed. Therefore it is closer to a liquid state than a solid (Tyson).


Liquid crystals are very susceptible to changes in temperature and that is why they are used in the manufacture of things such as thermometers and mood rings. Temperature itself plays a significant role in determining what phase the liquid crystals are in. This is why of the several different phases; it is the nematic phase that makes liquid crystal displays possible. Since liquid crystals can be affected by electricity a particular nematic liquid crystal, called twisted nematics is used. Its ability to be affected and untwist depending on the amount of current applied is used as a way to control the passage of light through the crystal. This is the property that gives liquid crystals its practical and commercial uses in calculators, computers, televisions, and watches. To make the numbers and letters we see in displays, small electric voltages are applied to twisted nematic liquid crystals that are sandwiched between two layers of glass. When the current is applied it disrupts and untwists the molecules to varying degrees and this change of shape and color compared to its surroundings is what we see. For example, in


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calculators, electronic impulses control which parts of the display change shape and color so that they end up forming a number or letter (Tyson).


The fact that we use this technology to display and communicate information is its niche. Liquid crystal displays are the most popular medium for display applications large and small. In 000 approximately two billion liquid crystal displays were made. The industry is estimated to presently be worth $0 billion. Try imagining civilizations thousands of years ago. To tell the time people used an hourglass or maybe a sundial. Even up to the last few centuries, the best and most accurate way of telling time was using a mechanical/analog watch. Communicating information required disposable items that you would not end up re-using. To send these items of information to another person the actual document had to travel and be delivered. Liquid crystal display technology has done away with this because it enables us to view and manipulate information however we see fit. Take for example a palm pilot. You can carry maybe fifty pages of information in the machine itself and yet we are only carrying one device with the ability to change how information is displayed (Cartilidge).


A popular market for liquid crystal displays has not only been the microcomputer market, but the personal computer market as well. Liquid crystal displays were estimated to be part of 7 million computer products in 1. One of the main reasons behind this is because liquid crystal display monitors have started to replace the traditional cathode ray tube (CRT) monitors. Admittedly the technology is for the moment priced a bit higher than its veteran counterpart, but many consumers are seeing the benefits to using liquid crystal display monitors. The most obvious would be the difference in size. The


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biggest drawback to cathode ray tube monitors is that they are bulky, not to mention heavy. In comparison, liquid crystal display monitors are about one-sixth the width of


cathode ray tube monitors. They come in sizes of anywhere between one to three inches, whereas cathode ray tube monitors and can be as much as twenty-four inches thick. That is a big difference when thinking about putting a display on a small desk. Liquid crystal display screens are also easier on the eyes because of their low intensity. Since liquid crystals cannot generate light of their own, most liquid crystal computer displays are backlit with fluorescent tubes. A panel behind the liquid crystal display makes sure to evenly spread out the light for the display. Next there would be the energy cost of running the monitor. Liquid crystal displays require less energy and are more efficient than cathode ray tube monitors. Though the liquid crystal displays need backlighting its power consumption is still negligible. As technology improves the costs of liquid crystal displays will come down and liquid crystal displays will eventually come to dominate the market. What is key to this happening will be advances in manufacturing techniques. The reason why liquid crystal displays are expensive is because of the high rate of rejection at manufacturing plants. About forty percent of the liquid crystal displays that come off the assembly lines are rejected because of bad transistors. The good liquid crystal displays sold to consumers must cover the costs of the bad ones as well (Kyrnin).


As far as the future of the industry is concerned it is very bright indeed. It would not be surprising if display technology one day replaced the use of paper. Electronic paper so to say, would replace printed material, leading to lower costs and less impact on


the environment. There are many federal agencies as well as private sector companies


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committed to the continuing research of liquid crystal displays and their applications. Some of these would include the National Aeronautics and Space Administration


(NASA), the Department of Energy, and the United States Navy. In the private sector, companies such as Micron Technologies, Apple Computer, Dell, IBM, and Dupont are leading the charge. Future applications of liquid crystal display technology might be in areas such as national defense, high-resolution navigation displays, displays on silicon, and projection light valves. Different uses for this technology are rapidly being discovered the technology can be seen everywhere we look. Not to mention making the information highway more accessible by providing people with virtual computer images anytime and anywhere. It will go on affecting the way we live and play key roles in the development of similar technologies and the progression of new ones (Walker).


Please note that this sample paper on Liquid Crystal Displays is for your review only. In order to eliminate any of the plagiarism issues, it is highly recommended that you do not use it for you own writing purposes. In case you experience difficulties with writing a well structured and accurately composed paper on Liquid Crystal Displays, we are here to assist you. Your cheap custom college paper on Liquid Crystal Displays will be written from scratch, so you do not have to worry about its originality.


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George Ellery Hale

If you order your cheap custom essays from our custom writing service you will receive a perfectly written assignment on George Ellery Hale. What we need from you is to provide us with your detailed paper instructions for our experienced writers to follow all of your specific writing requirements. Specify your order details, state the exact number of pages required and our custom writing professionals will deliver the best quality George Ellery Hale paper right on time.


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George Ellery Hale


George Ellery Hale was not your average astronomer. Hale did more for study of astronomy during his time than most. Hale was born in Chicago, Illinois on June , 1868. Hale was a very anxious and intense child. This would lead him to three mental breakdowns in his lifetime. Hale was a person who had many troubles during his lifetime, but he seemed to succeed even through all these troubles.


Hale was a very smart person and he took advantage of this throughout his life. He first attended Massachusetts Institute of Technology were he invented the Spectroheliograph. An instrument used to measure solar prominences in the daytime. His main work as an astronomer was solar science. While studying solar science he wrote some 450 articles and books on this topic. Hale was very much into inventing things for himself. He was a person that started things. This was obvious in all the observatories he started. Hale worked in private at the Kenwood Observatory. Two years later he joined the faculty at the University of Chicago. There he built the Yerkes Observatory. At the observatory he built a 40-inch retractor. Which he directed from 18 until 104. This was the first of the three observatories that Hale established. Later he built a 100-inch telescope for the Mt. Wilson Observatory. He directed there from 104 to 1. Due to his poor physical condition at Mt. Wilson he had to retire. In 18 he returned to lead construction on a new telescope at the California Institute of Technology. There he designed a 00-inch telescope. It was not installed until 148, when it was named the Hale telescope. Then in 170 two California observatories were named Hale observatories in his honor. Hale made astronomy better through his hard work and commitment.


Hale being the hard working person he was received many awards throughout his lifetime. The first was from the American Academy of Arts and Sciences it was the Rumford prize. Then he received the Henry Draper Medal from the National Academy of Sciences. Then he received a Gold Medal from the Royal Astronomical Society. He was a Bruce Medalist; also he received the Elliot Cresson Medal and the Ben Franklin Medal from the Franklin Institute. His last achievement was the Copley Medal from the Royal Society. As you can see Hale was a very well thought of astronomer and this was shown through all the honors that he received.Cheap custom writing service can write essays on George Ellery Hale


George Ellery Hale was a man that faced adversity and won. He fought through mental problems to succeed in life as well as in astronomy. He laid the groundwork for many others in astronomy. He showed us things that we have never seen before. He worked hard to achieve many goals and dreams and I believe he did.


Please note that this sample paper on George Ellery Hale is for your review only. In order to eliminate any of the plagiarism issues, it is highly recommended that you do not use it for you own writing purposes. In case you experience difficulties with writing a well structured and accurately composed paper on George Ellery Hale, we are here to assist you. Your cheap research papers on George Ellery Hale will be written from scratch, so you do not have to worry about its originality.


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Monday, June 29, 2020

Genetic engineering

If you order your research paper from our custom writing service you will receive a perfectly written assignment on Genetic engineering. What we need from you is to provide us with your detailed paper instructions for our experienced writers to follow all of your specific writing requirements. Specify your order details, state the exact number of pages required and our custom writing professionals will deliver the best quality Genetic engineering paper right on time.


Our staff of freelance writers includes over 120 experts proficient in Genetic engineering, therefore you can rest assured that your assignment will be handled by only top rated specialists. Order your Genetic engineering paper at affordable prices!


Introduction years ahead when we decide to start having children, we may be able to pick them out! weither it be their hair color, eye color or even how athletic they are.


People are using genetic engineering which is defined as a method of manipulating human DNA of cells to change heredity traits or to stop cancers that can spread.(1) For medical reasons in unborn children and pregnant woman. The doctors take the embryos with the disease genes out. Then they use gene therapies to repair the genes or take them out all together adn replaces genes where the others had genetic disorders. The doctors can test for these genes in human eggs, or in early stage embryos. They take care of the genes that carry deathly diseases. This protects against Hemophilia, Tay-Sachs, anemia and alzhimers, certain types of cancer, lukemia, Cystic fibrosis, down syndrom. Almost any time of problem someone could have they could prevent if the parents of the unborn child have the money for these test and procedures.For instance a woman who is pregnant has a cancer that will 0% likely be spread to her unborn child before giving birth, they could change the genes and replace the disease causing ones and the baby will not be affected by this type of cancer. although the cost is very high, its usually about $,500 a test but then there is also a $7,500 fee for the vitro fertilization of the embryo. Vitro ifertilization is the process of implanting the embryo with modifications. This process is also called human germline engineering, which basically means altering reproductive genes, changing and using chosen ones. Years down the road, a couple will go into a fertility clinic not because they have problems with becoming pregnant but because they want to alter something with their child they plan to have. The doctors fertilize the womans egg with the mans sperm, then they will inject a artifical chromosome that tells the embryo that has the disease carring gene to self-destruct, therefore resulting in a life long with out that problem. Also promising that he will not carry that gene to his children when the time comes.() Couples my also want the genetic engineering due to the fact that their other child needs bone marrow, this way the child that is next to be born in a for sure match to the childs that in need.


These procedures could help in the death rate of very young children and help many people of having a short lived life and suffering. Helping a child before it even has to go through something so terriable such as Tay-Sachs disease when they normally die at painful death by the age of 5.


But people are not only wanting to use genetic engineering for medical reasons, they want to use them for other reasons. Such as the sex of their baby. they may want to have aboy because they want to leave something to them such as a family business. They may want a girl because they have all boys.


Custom Essays on Genetic engineering


Another reason they will also have this procedure, is so that they can choose the physical apperance of the child. They can then choose the color of the childs hair, eye color. Also they can help with the childs other physical attractions such as clear skin, not obese, muscular, and very athletic.


Ethically the causes problems among many americans they see this as playing god. And messing with things that shouldnt be tampered with.


Conclusion this causes much controversy among americans with the changing of the way god gives lifes.


Bibliography


(1)The Columbia Encyclopedia. Sixth edition- 001


() NEWSWEEK November , 18, By Sharon Begley


NCRonline Designer Babies, anyone? by Pamela Schaffer www.natchath.com/NCR_Online/10/10j.htm


ReasonOnline - March 6,00 Hooray for Designer Babies! By Ronald Baily http//reason.com/rb/rb0060.shtml


The Age ~ April ,00 Designer Babies? Dont leave it to the bureaucrats to decide www.theage.com.au/cfi-bin/common/printArticle.pl?path=/articles/00/04//10144


BBC News- Febuary ,00 Ethic fears raised over designer baby www.news.bbc.co.uk/1/hi/health/18717.stm


The Washington Monthly Online- March 000 Designer babies By Shannon Brownlee www.washingtonmonthly.com/features/001/00.brownlee.html


The Technology Review- Febuary 00 choosing our childs genetic futureBy Erika Jonietz www.technologyreview.com/articles/impact00.asp?p=


Time magazine- January 11,1 Designer Babies, parents can now pick kids sex and screen for genetic illeness. will someday they select for brains and beauty too? By Michael D. Lemonick


EBSCO host


Christian Science Monitor date- 8-1-1 vol. 1 Issue 185,p10 Looking Beyond Gene Maps


San Diego Union- Tribune date- 6-1-0 San Diego- Based medical device company genetronics sells top money-making unit


Please note that this sample paper on Genetic engineering is for your review only. In order to eliminate any of the plagiarism issues, it is highly recommended that you do not use it for you own writing purposes. In case you experience difficulties with writing a well structured and accurately composed paper on Genetic engineering, we are here to assist you. Your persuasive essay on Genetic engineering will be written from scratch, so you do not have to worry about its originality.


Order your authentic assignment and you will be amazed at how easy it is to complete a quality custom paper within the shortest time possible!