Partick O'Donnell City Councilman Essay Example | Topics and Well Written Essays - 250 words

Partick O'Donnell City Councilman - Essay Example Chapters 13 and 15 of the book are titled, Counties, Special Districts and Regional Agencies and Issues for the New Century, respectively. This is because; the meeting being announced is scheduled for discussions on present matters that have a strong bearing on California’s future and welfare. Particularly, in pages 90-92 in chapter 13 of the book, Field discusses how regional agencies and corporate entities affect the growth and stability of the ‘golden state.’ In chapter 15 of the book, particularly in pages 102-108, the author divulges on and discusses the challenges that continue to beset Chicago. It is not in doubt that recent events in Chicago at the time would discuss the setbacks that Chicago would be facing at the time. It is also very likely that the prospects that the 7- eleven convenience stores bring towards Chicago’s security, economic development and local employment will be applicable in the meeting (Field, 90-3, 102-8). All these are indica ted in the index page 134. The summary of the article is effective since it amplifies the intent of the article and the meeting that it is intending to communicate. The success of the meeting is premised on the manner in which it communicates the intricacies of the message: the date (May 30th, 2012), the venue (Lawn Bowling Club Recreational Park) and the theme of the meeting (the 7- eleven convenience stores of Anaheim and Ximeno). The May 1st, 2012 article titled Chat with Special Guest: LBPD Specialist Kymberly Cloughesy is also important and successful since it communicates the challenges that Chicago has faced and the solutions that O’Donnell has proposed and continues to ratify. The article O’Donnell Keeps Long Beach Moving is also important since it explains O’Donnell’s rationale that having a flowing traffic is not only an efficient and fair way of using Chicago’s budget. Likewise, by expanding 405 Freeway

The Most Satisfying Proportion In Todays Design Philosophy Essay

The Most Satisfying Proportion In Todays Design Philosophy Essay 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 Cobusier 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. Renaissance Period The Golden Ratio is related to many things in the world today, not only during the times of Renaissance, LeCobusier 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 GR, 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. Body Presence of Golden Ratio Contribution of the Golden Ratio in architectural designs 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 GR and the Fibonacci series. He uses the GR 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. 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.) The Golden Ratio as seen in painting 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 as seen in our natural world 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. 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 GR 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. Rules of Organic Architecture Architect and planner David Pearson proposed a list of rules towards the design of organic architecture. These rules are known as the Gaia Charter for organic architecture and design. It reads: Let the Design: be inspired by nature and be sustainable, healthy, conserving, and diverse. unfold, like an organism, from the seed within. exist in the continuous present and begin again and again. follow the flows and be flexible and adaptable. satisfy social, physical, and spiritual needs. grow out of the site and be unique. celebrate the spirit of youth, play and surprise. express the rhythm of music and the power of dance (Pearson, 2001) 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 GR has always studied nature for inspiration and they derived the GR from nature itself. Modern architects who claim to move away from the GR as it is too conformist and look towards nature for their inspiration for proportion instead still end up following the GR as it was from studying nature that led to the discovery of GR. Hence the continuing relevance of GR 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 GR. 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: Palladios Villa Rotunda. The Villa Rotonda is symmetrical on all axes, including diagonals. Any architect will tell you this is hard to do, much less sell to a client; even Palladio only did it once, probably just to see if he could. Palladio based his design on simple progressions in the Fibonacci series leading to the Golden Mean. This is also hard to do. Case Study Three: Taj Mahai In India, the Golden Mean was used in the construction of the Taj Mahal, which was completed in 1648. http://archgeom.blogspot.com/2010/03/golden-section-in-taj-mahal.html Case Study Four: CN Tower in Toronto The CN Tower in Toronto, the tallest tower and freestanding structure in the world, has contains the golden ratio in its design. The ratio of observation deck at 342 meters to the total height of 553.33 is 0.618 or phi, the reciprocal of Phi! Case Study Five: California Polytechnic State University The College of Engineering at the have plans for a new Engineering Plaza based on the Fibonacci numbers. 4.2. What I have perceived until this moment In my analysis, GR 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.

Leonardo Fibonacci Essay -- Mathematics Papers

Leonardo Fibonacci Leonardo Fibonacci was one of the great mathematicians of his time. His lifestyle allowed him to travel and study math in various countries, and he ended up combining his cultural knowledge to discover the most effective ways of doing mathematics. He is most famous for his contributions to the European number system and for his sequence of numbers known as the Fibonacci numbers. Starting with 0 and 1 as the first two numbers, each number in the sequence is the sum of the two preceding numbers. He came across these numbers as a solution to a problem that he used as an example in one of his many publications. He was not aware of the importance of his findings at the time. Many uses have been found for these numbers since Leonardo’s death and many mathematicians have used this sequence in their own theories. Leonardo Fibonacci was born in Pisa, Italy in the middle 1170’s. When he was almost twenty, he moved to Bugia, Algeria with his father, Guielmo Bonacci. Bonacci was the secretary of the Republic of Pisa responsible for directing the Pisan trading colony in Bugia. When he brought his son to Algeria, he had Leonardo educated to become a merchant. During his studies in northern Africa, Fibonacci discovered the Hindu-Arabic number system, which he had not been exposed to in Europe. When his father arranged for him to work for the Pisan republic, Leonardo took advantage of his business trips to countries such as Greece, Sicily, Egypt and Provence. He studied the methods of mathematics that were practiced in these various nations. He discovered that the Hindu-Arabic numerals were much more effective and easier to manipulate than the Roman numeral system used in Italy. [i] .. ...997. Newman, James R., The World of Mathematics. Vol. 1, New York: Simon and Schuster, c1956. Peer Reviewed by Melissa Lenzi and Mike Hartman. [i] http://www.lib.virginia.edu/science/parshall/fibonacc.html [ii] Ibid. [iii] http://www.mcs.surrey.ac.uk/Personal/R.Knott/Fibonacci/fibBio.html#who [iv] Sanford, p.25 [v] http://www.lib.virginia.edu/science/parshall/fibonacc.html [vi] Ibid [vii] http://www.mcs.surrey.ac.uk/Personal/R.Knott/Fibonacci/fibBio.html#who [viii] http://www.mcs.surrey.ac.uk/Personal/R.Knott/Fibonacci/fibFormula.html#calcnext [ix] Ibid. [x] Ibid. [xi] Gullberg, p. 287 [xii] http://www.mcs.surrey.ac.uk/Personal/R.Knot/Fibonacci/lucasNbs.htmll#otherstarts [xiii] Gullberg, p. 288 [xiv] Boyer, p. 287 [xv] http://www.mcs.surrey.ac.uk/Personal/R.Knott/Fibonacci/fibpi.html#piandfib [xvi] Newman, p.718

Hockey: Nutrition and National Game Essay

Despite the ever-growing popularity of cricket, Hockey has managed to still be the National Game of India. The peak time of Indian hockey team was from 1928 to 1956, when it brought all the six consecutive Olympic gold medals home that were held during those years. Hockey was chosen as the National Game because of the team’s unparalleled distinction and matchless talent at the time. During the phase, India had played 24 Olympic matches and won all of them scoring 178 goals and conceding only 7 goals. The only other achievements of the team later that are worth mentioning are the gold medal in the 1964 Tokyo Olympics and the gold medal in the 1980 Moscow Olympics. The black magic Indian touch and their ball juggling feats have become almost extinct now. Perhaps we need better coaches, more finances and facilities and more practice on Astroturf, which has a faster surface than the grass, where Indians have to practice. It will be a good idea to train the talented children in hockey right from school level, providing them the necessary funds, training and facilities to preserve the Indian glory. Today all the people are interested in playing games such as cricket, football in our country. But people are not showing interest in the game hockey. since hockey our national game. most of the schools and colleges are having ground only for foot ball and cricket. not for hockey. some people wont do no the captain of the hockey game. Not go so far in India study channel there is no category for our national game hockey. So this must be changed . I am not mentioned that playing cricket and foot ball is not a wrong thing but at the same time please give the same importance to the game hockey. There are also subtyoes of hockey have been introduced- like field hockey, ice hockey, roller hockey, street hockey etc. Hockey is a family of sports in which two teams play against each other by trying to maneuver a ball or a puck into the opponent’s goal using a hockey stick. In many areas, one sport is generally referred to simply as hockey. The word hockey itself is of unknown origin, although it is likely a derivative of hoquet, a Middle French word for a shepherd’s stave. [3] The curved, or â€Å"hooked† ends of the sticks used for hockey would indeed have resembled these staves. Junk food Junk food is a derisive slang term for food that is of little nutritional value and often high in fat, sugar, salt, and calories. [1][2][3] It is widely believed that the term was coined by Michael Jacobson, director of the Center for Science in the Public Interest, in 1972. [4] Junk foods typically contain high levels of calories from sugar or fat with little protein, vitamins or minerals. Foods commonly considered junk foods include salted snack foods, gum, candy, sweet desserts, fried fast food, and sugary carbonated beverages. [5] Many foods such as hamburgers, pizza, and tacoscan be considered either healthy or junk food depending on their ingredients and preparation methods. [citation needed] The more highly processed items usually falling under the junk food category. [6] What is and is not junk food can also depend on the person’s class and social status, with wealthier people tending to have a broader definition while lower-income consumers may see fewer foods as junk food, especially certain ethnic foods. Despite being labeled as â€Å"junk,† consuming such foods usually does not pose any immediate health concerns and is generally safe when integrated into a well balanced diet A study in 2008 suggested that junk food consumption alters brain activity in a manner similar to addictive drugs like cocaine and heroin. [9] After many weeks with unlimited access to junk food, the pleasure centers of rat brains became desensitized, requiring more food for pleasure. After the junk food was taken away and replaced with a healthy diet, the rats starved for two weeks instead of eating nutritious fare. [10] A 2007British Journal of Nutrition study found that female rats who eat junk food during pregnancy increased the likelihood of unhealthy eating habits in their offspring. [11] A report published in the Journal of the Federation of American Societies for Experimental Biology suggests that babies of mothers with a high-sugar and high-fat diet while pregnant are more prone to junk food themselves. The study was conducted on rats and suggests that pups â€Å"whose mothers eat excessive amounts of high-fat, high-sugar junk foods when pregnant or breastfeeding are likely to have a greater preference for these foods later in life. â€Å"[12] Junk food can be appealing for a variety of reasons, including convenience, price and taste. For children, who do not always understand the health consequences of their eating habits, junk food may appear especially appetizing. However, regularly consuming fattening junk food can be addictive for children and lead to complications like obesity, chronic illness, low self-esteem and even depression, as well as affecting how they perform in school and extracurricular activities.

Power of Suppliers Essay

Another force is power of suppliers. Power of the suppliers is important as it will affect the industry. In airline industry, the power of suppliers is quite high since there are only two major suppliers which are Airbus and Boeing hence there are not many choices to airline industry. Nevertheless, the global economic crisis has limited the new entrant and also reducing the upgrade of planes in the immediate future. However, both suppliers provide almost same standard aircraft and hence the switching to Air Asia is low. The supplier of airline companies is the fuel supplier, food supplier, merchandise supplier and aircraft supplier. Other supplier like foods supplier and fuel supplier, the term of the supply must be based on the market condition. Hence, the supplier cannot increase too much of its price or risk losing long term business with the aircraft companies. Besides that, Airasia has high switching costs. Most of Airasia’s aircraft are Airbus models. Previously, the company used Boeing models, which they lease it and the company had since phased out most of the models and replace with Airbus. If Airasia is to switch to Boeing again, then the cost will be high. This is because training cost for employees to suit the aircraft features must be provided. Furthermore, the technology used by Airbus is the most advanced, thus Airasia must rely to the Airbus’ engineers to do maintenance of the aircrafts and seek advices. if the Airbus does not to cooperate with Air Asia, Air Asia will not have no suppliers to do the maintenance. nThus, bargaining power of suppliers is strong.