W2CapD Vision and Mission Essay Example | Topics and Well Written Essays - 250 words

W2CapD Vision and Mission - Essay Example e benefit – a vision statement gives the picture of the preferred future†¦ the vision is a statement that describes how the future will look if the organization meets its mission† (Wilkinson, 2013, p. 1). Thus, the mission statement defines the specific strategies that are to be undertaken to ensure that the vision is achieved. Values play a crucial role in the vision and mission of an organization. The beliefs, principles, and philosophies of the officers and leaders in the organization influence the manner by which vision and mission statements are designed. As emphasized, â€Å"vision and mission statements should articulate the essence of your organizations beliefs and values and define its place in the world† (Foundation Center, 2015, p. 1). Likewise, core values are further asserted as the â€Å"the principles and standards at the very center of our character, and from which we will not budge or stray. (As such), even though we frequently talk about mission and vision first, the basic underlying foundation for both are our core values† (Grusenmeyer, n.d., p. 2). As such, the theoretical or conceptual framework which becomes the foundation of the mission and vision statements are the values set ingrained in the incorporating owners or members of the organization. What they believe they n eed or want to achieve in the long term would define the mission and vision that would be explicitly communicated to the rest of the stakeholders. Wilkinson, M. (2013, January 30). There’s a difference: mission v. vision. Retrieved from managementhelp.org:

E-Library System Essay Example for Free

E-Library System Essay This chapter presents the software development methodology used by the researchers in the design and development of the proposed Online Library system of UCNHS, the scope and delimitation, the date gathering techniques, and the sources of data. Software Development Methodology The Modified Waterfall Model in software engineering came into existence because of the defects of the traditional Waterfall Model. The phases of the Modified Waterfall Model are similar to the traditional Model. The main change is that phases in the Modified Waterfall Model life Cycle are permitted to overlap. A lot of flexibility has been introduced in the Modified Waterfall Model in software engineering due to overlapping phases. At the same time, a number of tasks can function, concurrently, which ensures that the defects in the software are removed in the development stage itself and the over head cost of making changes to the software before implementation is saved. The Modified Waterfall Model is more relaxed approach to formal procedures, documents and reviews. It also reduces the huge bundle of documents. Due to the development team, the devote to work on the code has more time and does not have to bother about the procedures. The researchers used Modified Waterfall Model because documentation is produced at every stage of the software development. This makes understanding the product designing procedure, simpler and will closely work with the school and users to understand their needs. The figure below describes the structure and activities in the Modified Waterfall Model (Bhakti Satalkar, 2010). Requirement gathering and analysis System Design. Implementation Testing Maintenance Figure 2. Modified waterfall Model Requirement gathering and analysis. All possible requirements of the system to be developed are captured in this phase. Requirements are a set of functions and constraints that the end user (who will be using the system) expects from the system. The requirements are gathered from the end user at the start of the software development phase. These requirements are analyzed for their validity, and the possibility of incorporating the requirements in the system to be developed is also studied. Finally, a requirement specification document is created which serves the purpose of guideline for the next phase of the model. In this phase, the researchers gathered data that might be used in the proposed system and also through an interview with the library staff, performed observation to the transaction and conducted survey with students of Urdaneta City National High School. System Design. Before starting the actual coding phase, it is highly important to understand the requirements of the end user and also have an idea of how should the end product looks like. The requirement specifications from the first phase are studied in this phase and a system design is prepared. System design helps in specifying hardware and system requirements and also helps in defining the overall system architecture. The system design specifications serve as an input for the next phase of the model. In this phase, the researchers will use USE CASE, DFD, ERD to evaluate and design the system in accordance to the requirements needed. Implementation. On receiving system design documents, the work is divided in modules/units and actual coding is started. The system is first developed in small programs called units, which are integrated in the next phase. Each unit is developed and tested for its functionality; this is referred to as unit testing. Unit testing mainly verifies if the modules/units meet their specifications. The researchers will use visual basic 2010 as programming language to create and develop the system. Likewise, MS SQL as database is used as the back end to store, maintain and manage the database integrated to the system. Upon implementation, several testing will also be done to ensure that each module is working properly. Testing. As specified above, the system is first divided in units which are developed and tested for their functionalities. These units are integrated into a complete system during Integration phase and tested to check if all modules/units coordinate between each other and the system as a whole behaves as per the specifications. After successfully testing the software, it is delivered to the customer. In this phase, the researchers will test the system to ensure that the developed system functions are according to its requirements and to avoid errors. Maintenance. Inevitably the system will need maintenance. Software will definitely undergo change once it is delivered to the school library. There are many reasons for the change. Change could happen because of some unexpected input values into the system and it could directly affect the software operation. The software should be developed to accommodate changes that could happen during post implementation period. In case there are changes necessary it has to be fixed to make the system usable or to make it comply with the library staff wishes. In this phase, the researcher will instruct the librarian on how to operate and maintain the system. Meanwhile other features that will be implementing in this phase are beyond the limitation of the researchers. Scope and Delimitations This project covers the development of Digital Library System of Urdaneta City National High School. Specifically, it will cater all the processes done in inventory, borrowing, returning, and reservation of books. The Digital Library System of Urdaneta City National High School can access by the admin which is the Librarian, students in UCNHS, teachers of UCNHS and guest which is the alumni and students from different schools. Guest can only inquire for books availability and reserve it personally. However, the proposed system limits on the contents of book that can be viewed digitally, only the title page, table of contents and its overview are applied. Only the students and teachers are allowed to reserve and borrow book through online. The guest is not allowed to reserve books through online. Teachers and students referral is not included in the system. Data Gathering Techniques The researchers gathered information of the system through structured interview, questionnaire and document analysis to the UCNHS library staff and students. The use of references allowed additional information about software and system Requirements as well as how some organizations use the Internet in making achieves for records that later becomes a collective library on the internet. Structured Interview. Means of collecting data for a statistical survey. In this case, the data is collected by an interviewer rather than through a self-administered questionnaire. Interviewers read the questions exactly as they appear on the survey questionnaire. The choice of answers to the questions is often fixed (close-ended) in advance, though open-ended questions can also be included within a structured interview. In a series of interviews, researchers knew exactly what information are needed and prepared a list of pre-determined question that will be asking to the respondents. The researchers gather some viewpoints of the people around the system that could make more efficient particularly to library and employees. Document Analysis. Technique used to gather requirements during the requirements elicitation phase of a project. It describes the act of reviewing the existing documentation of comparable business processes or systems in order to extract pieces of information that are relevant to the current project, and therefore should be consider projects requirements. In support to the structured interview, the researchers gathered and examined thoroughly the existing documents like catalogue, logbook, and book card. Questionnaire. Research instrument consisting of a series of questions and other prompts for the purpose of gathering information from respondents. Although they are often designed for statistical analysis of the responses, this is not always the case. Questionnaires will be distributed to the students as input to the design of the proposed system. Likewise, with their feedbacks, features can be determined. Sources of data The Librarian, Library staff and students were interviewed as primary respondents. Also books and thesis manuscript were used to determine other requirements of the propose system. The researchers used websites, online libraries and other similar studies as references in this study. In addition to this, the researchers will distribute questionnaires to the Urdaneta National High School students to get information that will help in the progress of the development of the project study. Table 1: List of Respondents RESPONDENTS| NUMBER OF RESPONDENT| Librarian| 1| Library Staff| 2| Students| 100| Teachers| 50| Total| 153|.

The Golden Ratio: Importance

The Golden Ratio: Importance The great architect of age and every culture, the basis of which is Golden Ratio. Thesis statement: What is the Golden Ratio? How can one number be so important that countless historical figures have spent many years of their lives studying it and proving its existence? And why is it still so relevant in todays design and architecture? Introduction What is the most satisfying proportion in today design? The Greeks thought they knew. Their temples were designed according to certain rules relating to the golden section. (Which is what we, layman, know as the Divine Proportion, the Golden Proportion, the Golden Number or even the Golden hat Mean.) In the 13th century, Fibonnaci, an Italian mathematician, put it all down on paper. He said, the golden section or perfect proportion was 0.618034 to 1 (about 5 to 8). The Parthenon (a temple in the Athenian Acropolis that the Greeks built, dedicated to the Greek goddess Athena) fits into Fibonnacis Golden rectangle. Incidentally, so do the pyramids at Giza. Does this make the Golden proportion a necessary rule to follow in design? In the 16th century, Leonardo Da Vinci wrote a book on geometric recreations called Divine Proportion. In 1948 Le Corbusier also wrote a book on mathematical proportioning. Others who have benefited this ratio are biologists, artists, psychologists and even mystics have pondered and debated on the basis of ubiquity and appeal. It is fair to say that the Golden Ratio has inspired thinkers of all disciplines like no other numbers in the history of mathematics. Throughout the generations, many architects have also searched for the golden rule of design, thinking that it is that of the Golden Ratio. However, their search is far from over. This is because mathematics alone will not tell you what the most eye-pleasing proportion for a buildings structure is. Proportion must be generically correct and determined by the nature of the material. In other words, it is one thing for stone, another for concrete, and something else for steel. This, we would discuss further in another segment. Present technology has also given architects and engineers unlimited range to compose new forms of design and exciting spaces. My stand is that the Golden Ratio is an important aspect in designing a building but it is not the most crucial. Besides having proportion in a building, functionality is also important. A creative design through the creative intuition of a designer will make the building outstanding. History Background Renaissance Period The Golden Ratio is related to many things in the world today, not only during the times of Renaissance, Le Corbusier and Alberti. It exists in architecture, art, music, design and even fashion. Since Renaissance, many artists and architects have proportioned their works to the Golden Ratio, especially in the form of golden rectangle, in which the ratio of the longer side to the shorter in the Golden Ratio, causing this proportion to be aesthetically pleasing. Mathematicians have studied this because of its unique and interesting properties applying it to geometry. Since then, it has opened up doors for me how I view design and architecture and how it balances harmony to architecture design in this modern world. Others who have benefited this ratio are biologists, artists, psychologists and even mystics have pondered and debated on the basis of ubiquity and appeal. It is fair to say that the Golden Ratio has inspired thinkers of all disciplines like no other numbers in the history of mathematics. B Body The Golden Ratio in the Past Firstly, let us consider what the ancients were trying to achieve by including the Golden Proportion in their design. Taking the building of the Parthenon temple as an example, the Greeks have shown a clear example of proportioned Golden Ratio and design, with it being circumscribed by golden rectangles. Some scholars, however, denied that the Greeks had any aesthetic association with Golden Ratio. It could have been just pure sense of good proportion by the architects at that time. Making a building pleasing to ones eyes and creating harmony in space was the main objective. the Greeks simply wanted to achieve perfection that pleases their God, Athena. The Parthenons facade is, or? Unlikely I feel, as it is seen from the pictures, the measurements and the superimpose golden rectangles, these choices are so well made that there must be some work of the mathematical calculations to derive such proportioned structure of a building. They feel that it was not until Euclid that mathematical properties were studied. Before Elements (308BC) the Greek merely regarded the number merely as an interesting irrational numbers, with regular pentagons and decagons and dodecahedron (a regular polyhedron) and regular pentagons. But one thing for sure, it was the Euclid where it is showed how to calculate the value. Vitruvius (a Roman writer, architect and engineer) discussed proportions where it can be expressed in whole numbers, as opposed to irrational proportions. Secondly, Are modern designers concerned with the issue of Golden Ratio to architectural design? Whether they still apply Golden Ratio? Le Corbusier is said to have contributed to many modern international style architecture, centering on harmony and proportion. Its faith in the mathematical order was closely bound by the Golden Ratio and the Fibonacci series. He uses the Golden Ratio in his modulor system for the scale of architectural proportion. He saw this system as a continuation of the long tradition of Vitruvius, and others who used the proportions of the human body, to improve the appearance and function of architecture. In addition to Golden Ratio, Le Corbusier based the system on human measurements, Fibonacci numbers and the double unit. He took Leonardos suggestion of the Great Ratio in human proportions to an extreme, he sectioned his model human bodys height at the navel with the two sections in the Golden Ratio, then subdivided those sections in Golden Ratio at the knees and throat; he used these Golden Ratio proportions in the Modulor system. The Villa Stein in Garches exemplified the Modular system. The Villas rectangular ground, elevation and inner structure closely approximate golden rectangles. Thirdly, Fractal Dimensions in Modern Architecture Recently, fractal dimensions have been calculated to be used frequently for Frank Lloyd Wrights and Le Corbusiers buildings. It can be found that both architects use the method of increasingly smaller rectangular grids. Frank Lloyd Wrights buildings display a self-similar characteristic over a wide range of scales (far and spaced versus micro small sizes), so those buildings are intrinsically fractal. However for this specific project, Wright was following the brilliant example of his teacher, Louis Sullivan. By contrast, Le Corbusiers architecture displays a characteristic over only two or three of the largest scales. In more detail, Le Corbusiers architecture is flat and straight, and therefore has no fractal qualities. A fractal dimension between one and two characterizes a design that has an infinite number of self-similar levels of scale, whereas the fractal dimension of Le Corbusiers buildings immediately drops to one. (Bovill, 1996. Salingaros, 1999.) Golden Ratio has also proven in the Art and Nature Leonardo da Vincis illustrated yet another divine proportion in the infamous painting of Mona Lisa. Other equally well known painting which has made use of the Golden Ratio is The Sacrament of the Last Supper by Salvador Dali. The Golden Ratio is expressed in the arrangement of branches along the stems of plants and of veins in leaves and even to the skeletons of animals including their veins and nerves, to the proportions of chemical compounds and the geometry of crystals, to the use of proportion in artistic endeavours. From this, the Golden Ratio has become a universal law in strive to create completeness and beauty, with both nature and art, in structure, forms and proportions, organic and inorganic, in the human form. According to Volkmar Weiss and Harold Weiss the Golden Ratio also affects the clock cycle of brain waves, known as psychometric data. Golden Ratio is Relevance in Present Times Modernising the Traditional Intimate Relationship Between Architecture and Mathematics The traditional intimate relationship between architecture and mathematics has changed in the 20th century. Architecture students no longer need to have a mathematical background according to the article Architecture, Patterns and Mathematics by Nikos Salingaros. It may be promoting an anti-mathematical mindset. Mathematics is a science of patterns, the presence or absence of patterns in our surroundings influences how easily one grasp the concepts that rely on patterns. However, it has been seen that an increase in technological advances, rather especially in the area of environmental factors, has made mathematics almost redundant in architecture. Environmental psychologists know that our surroundings influence the way we think, so if we are raised in an anti-mathematical environment, then we would deem to subscribe more human qualities. This is not an argument about preferences or styles, it concerns more about a trained functionality of the human mind! An example to illustrate the meaning of functionality in the human mind is made by Christopher Alexander where: the need for lights from two sides of a room; a well-defined entrance; interaction of footpaths and car roads; hierarchy of privacy in different rooms of a house and etc. It speaks about specific building types, about building blocks that can be combined in an infinite number of ways. This implies a more mathematical and combinatoric approach to design in general. Alexandrine patterns represent solutions which repeat itself in time and space, thus relating to visual patterns transforming into other dimensions. A new concept: Organic Architecture In recent years, there has been a shift in architecture looking away from Golden Ratio to other ways in which design can still have a sense of proportion by looking at nature for inspiration; the term given is Organic Architecture. The term organic architecture was coined by the famous modern architect, Frank Lloyd Wright (1867-1959), though never well expressed by his cryptic style of writing: So here I stand before you preaching organic architecture: declaring organic architecture to be the modern ideal and the teaching so much needed if we are to see the whole of life, and to now serve the whole of life, holding no traditions essential to the great TRADITION. Nor cherishing any preconceived form fixing upon us either past, present or future, but instead exalting the simple laws of common sense or of super-sense if you prefer determining form by way of the nature of materials Frank Lloyd Wright, written in 1939. While Organic Architecture does describe some form of individuality, it also expresses our need to connect the designs, we create, to Nature. Using Nature as a fundamental for design, from there a building or design must grow, as Nature grows, from the inside out. Many architects design their buildings as that similar to a shell and force their way inside. Nature grows from the idea of a seed and reaches out to its surroundings. A building thus, is akin to an organism and mirrors the beauty and complexity of Nature. Where the Golden Ratio Fits In However, in the research that I have done on this topic, many of the historic scholars who devoted their entire lives to studying the Golden Ratio has always studied nature for inspiration and they derived the Golden Ratio from nature itself. Modern architects who claim to move away from the Golden Ratio as it is too conformist and look towards nature for their inspiration for proportion instead still end up following the Golden Ratio as it was from studying nature that led to the discovery of Golden Ratio. Hence, the continuing relevance of Golden Ratio in todays architecture. How the Golden Ratio is evident in our everyday lives The Golden Ratio seen in Music Rhythm is everywhere in nature, at every scale from cosmic phenomena to the oscillations of atoms. Our every cell has its own clock, governing its own repetitive rhythms. Time itself, once measured by the motion of earth, sun and stars, is now defined, less memorably, as 9,192,631,770 oscillations of a single atom of an obscure metal. At the scale of the biosphere, the fidelity of replication in the genetic system is such that no more than about 200 errors are made in copying the 300 million bases strung into the chromosomes that hoard the design of our bodies. Without those errors, however, there could be no change and so no evolution. With this is mind, we shall now look at how rhythm ties in with the Golden Ratio. Much of the rhythm and movement and design of our bodies and normal everyday life experiences all tie in with the Golden Ratio, how we perceive an object and whether we find it pleasing all goes back to the Golden Ratio. Because it is the one of the universal constants that allow for the interactions between all things on earth, it continues to hold relevance in our lives, regardless of the advancements in technology, which in fact is actually discovering more and more how life and design is so intimately associated with the Golden Ratio. Architectural evidence of the Golden Ratio Take a look at modern architecture and you will soon realize that the last decades have produced an increasing number of buildings with exotic shapes. Of course, also in earlier times the design of buildings has been influenced by mathematical ideas regarding, for instance, symmetry. Both historical and modern developments show that mathematics can play an important role, ranging from appropriate descriptions of designs to guiding the designers intuition. C Case study Case Study One: Republic Poly Technology of Singapore by Fumihiko Maki Fumihiko Maki designed the new campus attempting to preserve the green qualities and the topography of the original site introducing landscape elements that contrast with the natural widerness and strengthen the sense of place based on Golden Ratio. Case Study Two: AL Mukminin Mosque In Jurong East by Forum Architects built in 1987 The adoption of the Fibonacci sequence as a design generator is the intriguing concept of this Mosque, a strong arithmetic pattern. The architects involved with questions of context and the sense of harmony is gathered from the aspiration. Case Study Three: Palladios Villa Rotunda. The Villa Rotonda design is completely symmetrical on all axes under a modern teminology, including diagonals. Case Study Four: Taj Mahai Taj Mahai in India contains the golden ratio in its design and it was completed in 1648. Case Study Five: CN Tower in Toronto The CN Tower in Toronto, the tallest tower structure in the world, has contains the also has golden ratio in its design. 342 meters was the ratio of observation deck and total height of 553.33 is 0.618 or phi, the reciprocal of Phi! Case Study Six: California Polytechnic State University The College of Engineering was also designed based on the Fibonacci number What I have perceived until this moment In my analysis, Golden Ratio forms the basis of understanding of architecture, however it is not the entirety. Because form follow function, function plays an important part of the architectural design because without understanding the functionally of form, it is not possible to develop a building of good use, for example a good architect must be able to understand the utility of function. For example, the architect must know how many rooms a house needs, whether a swimming pool is required or a badminton court needed. After a form is selected and function must go beyond the concerns of biotechnical materialism. The creative architects must go beyond utility technical knowledge to an awareness of experiential associations and symbolic meanings that lies behind the visible form. Beauty in design is not guaranteed when all of the above is satisfied. Some intuition is required by the architect and an outstanding design depends also in skill and intuition with functionality. Therefore, the great architect of age and every culture, the basis of which is mathematical. Word count : 2953

managing global Essay examples -- essays research papers

Assignment 1 Managing from a global perspective requires managers to pay close attention to factors in the external environment, which may affect an organisation's success. It may be, however, that factors in the internal environment will also influence success in a global environment. It is important for global managers to be familiar with the factors of the external environment and pay close attention to the management of the internal environment because factors from both the internal and external environments will most certainly influence the success of an organisation. Most importantly, managers may need to strategically optimise the internal environment for the specific properties of the external environment in which they operate. The performance of an organisation may not be exceptional unless management of the internal environment, or the conditions existing within the organisation, is fully optimized for the external environment. As a global manager, paying close attention to the external environment is a prerequisite. The external environment is the different forces outside the organisation able to impact on the success of the organisation. The external environment in new and different countries may have elusive properties such as technology, social systems, politics, currency, and tax which the global manager need to consider and analyse. External forces such as the social and political systems are of particular importance as they are the ones most likely to influence an organisation's success. Therefore these are the main factors to which managers should pay close attention so as to "understand the constraints under which they operate and the opportunities that exist" (Robbins, Bergman, Stagg, Coulter, 2000, 141). By studying the specific political and social systems of a particular external environment managers can use their understanding of these systems to their advantage and develop exception al strategies based on their understanding. For instance, in some countries such as the Peoples Republic of China, one must be willing to 'open the back door if the front one is closed', in other words, managers need to understand the "importance of guanxi (connections) in doing business in China"(Robbins et al). Managers working from a global perspective not only need to know the different laws, tradi... ...ically integrated management decisions, especially when undertaking operations in new and different environments. The rapid spreading of telecommunications technology is a major influence affecting the compatibility of the external environment with the internal environment of an organisation. Through the use of technology in telecommunications and through paying close attention to the external environment, an organisation can operate and function as an open system and as a result the internal environment of the organisation can be optimized for compatibility with the external environment and exceptional organisational performance may be achieved. REFERENCES: Robbins, S. Bergman, R., Stagg, I. And Coulter, M. (2000). Management. 2nd ed., Sydney, Prentice Hall. pp.140-150 Daft, R. L. (2001) Management, 5th ed., Sydney, Dryden press.pp.187-220 Bartol, K., Martin, D., Tein, M. And Matthews, G. (2001). Management: A pacific Rim Focus, Roseville, McGraw-Hill. pp42-63 Davidson, P. And Griffin, R. W. (2000). Management: Australia in a Global Context, Brisbane, John Wiley & Sons. pp. 37-54 Fulop, L. And Linstead, S. (1999). Management: A Critical Text, Melbourne, McMillan. pp. 48-65

Andy Warhol Essay -- Pop Art Andy Warhol Artist Essays

Andy Warhol Works Cited Missing "I just paint things I always thought were beautiful, things you use every day and never think about†¦ I just do it because I like it. (Beckris 110) I just do it because I like it is Andy’s philosophy on life. Andy might just be the most interesting and at the same time the most confusing individual you will ever read about. Andy’s work is like none others. His art brought common day people together and showed the impact of contemporary society and the idea of mass media on values. Andy’s father Ondrej Wharhola is best described as a bald, burly man with a bulging belly and massive upper arms, pudgy nose and bristling sideburns. Ondrej was born in 1889 in Minkova. (Bekris, 6) He was married and living with Julia Warhola, mother of Andy, for three years in Mikova. In order to avoid being drafted into the Balkan conflict in 1912 he immigrated to Pittsburgh without her at the age of seventeen to work in a coal field in the industrial district of Philadelphia. ( Bekris, 7) Julia Warhola was born in a small village in the Capathian mountains outside of Czechoslovakia. Julia was the oldest and prettiest of her fifteen other siblings. She was also said to be the artistic one of the bunch. (Bekris, 7) In 1914 Julia gave birth to a baby girl. Because of the conditions due to the war the infant contracted influenza six months later and died. Julia’s mother was so depressed about the news of the infants death that she died one month later. (Bekris, 8-9) Julia was now reliable for her only two surviving sisters of ages six and nine. For the next four years Julia fled from the soldiers, hiding in woods and barns. She was supposed to be receiving money from Ondrej but because she was always on the run she never saw the money. From 1918-1921 she raised 160 dollars to go to the united states to find Ondrej. (Bekris, 9) Andy Warhol was born on September 28, 1930 in Forest City, Pennsylvania. Or so we think. This is what the original birth certificate read but Andy wanted people to believe he was born in Mc Keesport, or even Hawaii. He also stays true to believe the certificate is a forgery. Most books and other reportable sources confirm that he was indeed born in 1930 but the dates do range from 1925-1931 (Bekris, 10). Andy was raised in a coal mining town in Philadelphia. It was a dark musty town were the sky stayed black. The to... ... 10pm and at 4am on Sunday February 22, Min Chou, the private nurse who had been selected by the hospital from a registry, took Andy’s blood pressure and found it stable. She gave a progress report to the chief surgical resident by telephone at 11pm; presumably while the patient slept. At 5:45am Ms. Chou noticed that Warhol had turned blue and his pulse had weakened. Unable to waken him she summoned the floor nurse who in the words of a colleague, "almost had a stroke" A cardiac arrest team began resuscitation efforts but according to hospital sources, had difficulty putting a tube in Warhol’s windpipe because rigor mortis had started to set in. At 6:31am the artist was pronounced dead. The art world suffered a great lose with the death of Andy Warhol. His personal style will always move forward touching and changing people’s lives every day. Andy was a one of a kind and will never be recreated. To understand his art is a feeling many people over look. It is an every day reminder that we don’t take the time to look at what goes on around us. Now when I walk I wont just look down but all around me. At the trees, clouds, bricks under my feet, and the entire world moving around me.

Analysis of Characters from The Mayor of Casterbridge by Thomas Hardy E

Analysis of Characters from The Mayor of Casterbridge by Thomas Hardy A young Scot who arrives in Casterbridge at about the same time as Susan and Elizabeth-Jane, Donald Farfrae becomes Michael Henchard’s business manager. He quickly becomes Henchard’s only trusted friend and, later, his adversary in both business and love. Hardy draws Farfrae as Henchard’s counterpart in every way. He is physically small, polite and charming, careful and controlled, forward thinking, and methodical. Whereas Henchard propels his fate through moments of rash behavior, Farfrae is cool and calculating in all he does. Although his personality is friendly and engaging, Farfrae maintains a certain detachment from people and events, always considering the possible consequences of his decisions and actions before he makes them. As a result, his path through life is as smooth as Henchard’s is rough. Farfrae initiates a relationship with Henchard by providing information that is a great help to Henchard in solving a business problem and by refusing Henchard’s offer of payment for the information. Henchard is so grateful and impressed that he talks Farfrae into abandoning his plans to go to America and convinces him to take a job as Henchard’s business manager. Because Farfrae is more organized and methodical than Henchard, the business prospers under his management. Farfrae is ambitious enough to eventually go into business for himself, though, and this enrages Henchard even though Farfrae, in his typically principled way, tries to minimize competition between the two firms. Farfrae courts Elizabeth-Jane and even hints that he would marry her if he were in a financial position to do so, but when he meets the newly wealth... ...ng woman who, like Henchard, suffers several reversals of fortune and ends badly. Henchard has an affair with her before Susan arrives in Casterbridge, and this affair ruins Lucetta’s reputation. To try to repair the damage, Henchard, thinking that Susan is probably dead, offers to marry Lucetta. Before the marriage takes place, though, Susan returns, and Henchard must call off the wedding. After Susan dies, Lucetta inherits wealth, and Henchard renews his interest in her. Lucetta is more interested in Farfrae, though, and marries him. When Lucetta’s old letters to Henchard become public, the scandal of their affair returns to haunt them both, and Lucetta is so distraught by this that she suffers a seizure and dies. Farfrae soon realizes that Lucetta was not a good match for him and that, had she lived, their marriage would not have been happy. Themes

Applications of Biochemistry Essay

Blood is one of the most important fluids in the human body. It helps carry nutrients such as oxygen to the cells in the body and transports out wastes like carbon dioxide and other metabolites from these cells. Since blood is the medium through which the different organs and tissues in our body communicates, keeping a close eye on the constituents of a blood sample would provide a good indication of the functioning of the human body. Blood gas tests are ordered for patients who might have symptoms of pH imbalance, extreme levels of oxygen/ carbon dioxide, or in order to evaluate the functioning of organs such as the kidneys and the presence of disorders such as diabetes. The latter tests are measured through the analysis of electrolytes and metabolites in the blood. Patients who are on a â€Å"ventilator† in a hospital may have their treatment procedures also monitored using a blood gas analysis test. In the Core Laboratory of University Hospital in London, Ontario, the Gem Premiere 3000 Blood Gas Analyzer is used in order to perform tests on patients. There are two analyzers present in this laboratory. Both machines can run tests for levels of pH, partial pressure of carbon dioxide, partial pressure of oxygen, Na+, K+, Ca++, and hematocrit (Hct). One of the machines however, is also capable of running glucose and lactate tests as well. One other final blood constituent that is also analyzed in this analyzer is for carboxyhemoglobin. If a sample is to be tested for carboxyhemoglobin, the sample must be injected from the syringe into the GEM cuvette. The cuvette is then inserted into another analyzer in order to test carboxyhemoglobin levels. The samples collected for blood gas analysis tests can be arterial, venous, or capillary blood. Reference Range values of measurements in the â€Å"normal range† using the Gem Premiere 3000 (UCSF Medical Center, 2011). All samples are delivered to the laboratory in syringes or capillaries from the bedside of the patient in the hospital. A sample that arrives from the Operation Room can only be stored for and has to be analyzed within 15-20 minutes. Samples that are delivered to the laboratory on ice can be stored for one hour while all other samples must be analyzed within half an hour. Unlike other samples that are analyzed in the lab, these samples are not archived after analysis. All samples must also be warmed between the hands before being analyzed in order to mix the contents thoroughly. All syringes with samples contain a coating of heparin sulfate in order to avoid the clotting of blood samples. Once the source of blood sample (arterial, venous, capillary) has been selected on the display screen of the analyzer, the sample is checked for clots. This is done by testing a drop or two onto a gauze pad. The barcode on the sample syringe is then scanned in order to read the patient ID and store the results. A message then appears on the screen of the analyzer that reads â€Å"Present sample now†. The tip of the syringe can then be inserted at an angle, into the needle that protrudes from the Analyzer. The results will then appear on the screen and be saved on the patient’s profile according to their ID that was scanned. The maintenance conducted on the Gem Premiere 3000 is very minimal. The Gem Premiere 3000 contains a cartridge that has electrodes with all the calibration measurements for the machine. The analyzer is checked daily for printer paper. Every week, quality control tests are run in order to ensure the accurate working of the Gem Premiere 3000. The two control tests administered are the ‘Critical Care QC ContrIL9’ and the ‘GEM critCheck’. The first control tests for the proper analysis of of pH, partial pressure of carbon dioxide, partial pressure of oxygen, Na+, K+ and Ca++, while the second control tests for hematocrit low and normal levels (UCSF Medical Center, 2011). The cartilage with electrodes for calibration measurements expires every three weeks. However, if there is a power cut or an issue with the analyzer, the cartridge must be changed immediately before any other tests are conducted. Once the cartridge has been replaced, it takes half an hour for the cartridge to warm up after the CVP control has been run and before tests can be run again. Once all the tests are run, they are saved on the patient’s profile and are available for access by all physicians and hospital staff throughout the hospital.