Response 3 Fielding Essay Example | Topics and Well Written Essays - 500 words

Response 3 Fielding - Essay Example In addition, I vehemently propose that since the story of the novel revolves around the Parson Abraham Adams, the title of the novel should have been after the name of the parson. Joseph Andrews is thought to be the protagonist of the novel due to the very fact that the story starts and ends concentrating upon him. Moreover, he is the person whose refusal to the advancements of Lady Booby gives the go to the circumstances. In addition, he undergoes various financial losses and physical torture, faces mental sufferings and troubles during his adventures on his way as soon as he is dismissed from his job. Further, he is the character of the novel that combines different scenes of novel and has relationships with all other characters including his sister Pamela, his mistress Lady Booby, his mentor Parson Adams, his childhood friend and beloved Fanny, his co-worker Mrs. Slipslop and his parents Mrs. & Mr. Wilson as well as his patterns and benefactors i.e. the Andrews. Even then the dominant role played and performed by the parson makes him as the central figure of the novel. The sacrifices made by the parson and the sympathies and love offered by him are beyond any doubt. It is reality that he had no concern with either Joseph Andrews or Lady Booby, nor he was a rich person having pelf or wealth in plenty. Moreover, he had no political plans in his mind, nor he was a social reformer at all. Even then, he appears to the limelight to stand by the hero Joseph Andrews to rescue him in his miseries. Parson Adams has set out on a journey to deliver as well as sell the sermons in order to get some money in the pursuit of earning some money, but unfortunately the most innocent character of the novel i.e. Parson Adams forgets his sermons at his house and has no benefit to accompany Joseph in his miseries and troubles. Instead of

Leadership Development Report Essay Example | Topics and Well Written Essays - 1750 words

Leadership Development Report - Essay Example 134). Leadership development entails the entire process of expanding the capability of an organization to generate potential leaders in an organization to accomplish the set goals and objectives (Tichy and Devanna, 2007, p. 79). Leadership development entails the complete leaders’ interaction with political, social, and cultural environment within their area of jurisdiction (Avolio, and Gardner 2005, p.315). Leadership development models forms a key pillar for professional development in various manufacturing organizations (Northouse 2007, p. 91). Models expound on the standards prerequisite for an effective leader in an organization. Leadership development models defines some of the universal behavioural expectation of effective leaders including the leaders ability to develop external focus, the capability to achieve the expected results with people, implementation of the organizational plans with quality value and speed, prediction and execution of changes in an organizatio n as well as enhancement of quality evaluation and action. Leadership competency models are ideal for availing the three basic leadership requirements, connectivity, consistency, and clarity. Competencies aid in the formation of comprehensible and most effective expectations on the type of capabilities, behaviours, values, and mindsets that are fundamental in the organization leadership role (Jay and Douglas 2004, p. 2). In its consistency role, competency models offer an exceptional language and framework for communication and implementation of an organization’s leadership development plans. In its connectivity responsibility, competency models offer basic metric in organizations leadership development process. It is the driving force for performance management, feedback procedure, identification, rewards, and successful management Competency Model The study will focus on the competency model of core competencies for self management. Referring to this model, an effective lea der should understand their weaknesses, values, and strengths. Productive leaders should as well develop the capability of managing their weaknesses and strengths through engaging in consistent learning. They should also be committed and willing to seek aid from other professionals (George and Morgan 2006, p. 399). Leaders should be enthusiastic in accepting their mistakes and make the needed rectifications. Effective leaders should also have the capability of adapting with dynamic and stressful situations as well as having the ability of enhancing a practical balance between their social and working lives. However, the model is criticized for over relying on individual traits in describing the development and effectiveness of an excellent leader. The model is also condemned for overlying on a single personality in the success of an organization. The model also faces criticism for disregarding the issues of role overload, consistent errors, increasing frustrating situations, and rol e conflict. My Personal Strengths and Weaknesses as A Leader Current Strength In the course of my involvement in broad range of organizational situation, I have developed the leadership strength of a valuable and reliable leader in criticism situations. I have the capability of relishing the emerging challenges and standing strong for what I believe is correct and right. I have also developed a considerable degree of self awareness. As a

Historical background of the company Milkpak

Historical background of the company Milkpak Milkpak was part of a family group of businesses, known as the Ali Group, which also operated businesses in textile industry, had major holdings in the vegetable and soap industries among others. One of the Ali Groups leading companies was called Packages Limited, established in Lahore in 1956. This company supplied packaging materials to a variety of industries and also provided technical assistance to packaging plants overseas. In 1976 a review of Packages Ltd showed that one of its machines, the Tetra Laminator, was very under utilized. This machine was designed for making packaging material for long-life milk or UHT milk. Milk packaged in this way had a shelf life of up to three months without refrigeration. Thus, following this review, Milkpak was established to create a market for the packaging materials produced by Packages Ltd. The company then found one milk plant in Pakistan which was suited to produce sterilized milk. It leased the plant and launched a pilot project, which turned out to be a success. Milkpak was therefore incorporated in January 1979 and began commercial production in November 1981. In 1984 Milkpak started marketing the Frost line of fruit juices which had been introduced a few years earlier by Packages Ltd. Soon after, Milkpak bought the Frost brand name from Packages and in 1986 it accounted for 9% of Milkpaks total sales. In 1985 the company launched its own butter, and in 1986 it launched a sterilized cream product called balai and also a cooking oil called Desi Ghee. These products were sold under the brand name of Milkpak. Situation Analysis The environment in which businesses operate is dynamic, never static, that is it keeps changing. It is increasingly turbulent due to the era of change and uncertainty in which we live and is never stable. The pace of these changes is accelerating, which requires continual response from the business organization. In this section we will discuss some of the external factors and internal factors that influenced Milk Pak operations: Vision Statement of Milkpak The strategic priorities of Nestle Milkpak are focused on delivering shareholder value through the achievement of sustainable, capital efficient and profitable long term growth. Improvements in profitability will be achieved while respecting quality and safety standards. In line with this objective, Nestle Milkpak envisions to grow in the shortest possible time into the number one food company in Pakistan with the unique ability to meet the needs of consumers of every age group from infancy to old age, for nutrition and pleasure, through development of a large variety of food categories of the highest quality. Nestle Milkpak envisions the company to develop an extremely motivated and professionally trained work force, which would drive growth through innovation and renovation. It aspires, as a respected corporate citizen, to continue playing a significant role in the social and environmental sectors of the country. SWOT Analysis When making decisions it is very important for the business to consider the external environment as well as the firms existing resources. The SWOT analysis helps the management to set objectives and make plans to build up on the strengths, rectify the weaknesses, avail the opportunities and counter the threats. Strengths Milkpak had a high market share. Milkpak Ltd product line included diversified products. The strength of Milkpak is its identity. Extensive and continuous supply of milk from different sources. Milkpak distribution network grew rapidly between 1981- 1986. Within few years of its establishment it had sales offices in major cities of Pakistan. Milkpak had a reputation for consistent high quality for both consumers and the trade. Milkpak limited was owned by one of the leading industrialist of Pakistan i.e. Ali Group. Milkpak had a shell life of up to 3 months and did not require refrigeration. Milkpak also catered to low income consumers. Milkpak taught it suppliers scientific methods of livestock care and breeding. This made it milk supplies more reliable and of high quality. Weaknesses The total processing cost was around 25% of the total product cost. Packaging material which were heavily taxed by the government lead for another 26%of Milkpak production cost. Milkpak limited lacked required technical knowledge and expertise to expand the business. New brick pak was introduced in 1986, this required extra packaging material and therefore lead to an increase in Milkpak cost. Opportunities Government fostered the UHT milk industry by removing duties on import of machinery for dairy products. An opportunity of a joint venture with a foreign company. Training of Milkpak employees if Milkpak had a joint venture with Nestle or Friesland. Threats Government sanctioned a number of additional plants which lead to the possibility of substantial overcapacity in the market. Chaudhri Industries entered the market in 1986 with a competitive advantage i.e. brick packaging. Because the industry risked facing overcapacity, it was important for Milkpak to increase its market share. If it did not, its competitors could have dominated the market. Many companies were planning to enter the dairy industry. Between 1960- 1970, 23 dairy processing plants were establish out of which at least 15 plants closed due to lack of poor management and infrastructure, lack of milk supply and extensive refrigeration requirement. A joint venture with a large multinational might dominate Strategy of Milkpack In Pakistan, one of the major problems facing all milk producers and distributors was the discrepancy between the demand and supply of milk. There was a marked seasonal demand for milk, which peaked during the summer and slowed during the winter months. In contrast, the production of milk was highest during the winter months i.e. December to May, also known as the flush season and was lowest during the lean season, i.e. from May to August. To alleviate the problems brought about by the seasonal mismatch between supply and demand for milk during summer, the Pakistani government adopted liberal policies toward the import of milk products. This meant that Milkpak now had to compete with foreign markets alongside local milkmen who supplied raw milk. Milk powder became a popular import and by 1986 was making up 30% of all milk supplies in Karachi. The problem of seasonality meant that during the lean season Milkpak faced a shortage in demand, and during the flush season the company had to refuse milk supplies. The company needed to gain some knowledge and insight regarding how to operate in an environment where demand and supply were so seasonal. Furthermore, Milkpak marketing managers were reluctant to promote Milkpak heavily during the flush season for fear of creating demand in the lean season which they would not be able to satisfy. Although they were committed to increasing UHT milk sales, the UHT business was a very high volume and low margin business, where the technology for manufacturing UHT milk was considered very expensive. To counter the problem of milk shortages during the lean season it was possible to add milk powder to increase overall output volume. However, since the milk powder itself would be imported, this was an expensive option which also resulted in providing competitors with business. Milkpak also encountered some difficulties in marketing its product. A major challenge which the company faced was in positioning the milk. It was difficult to introduce the idea of long-life milk to their target market, especially since this milk did not require any refrigeration. At that time the market was mainly accustomed to buying small amounts of raw milk on a frequent basis, which needed to be stored in cool conditions. Another concern which consumers had was that the Milkpak brand contained preservatives, or were perhaps not genuine because it contained no cream. Milkpaks success with UHT milk encouraged a number of other competitors to enter the market. Some of these competitors were short lived and left the market soon after facing financial difficulties. Others were more sustained, such as Milko, Pakistan Dairies and Chaudhuri Dairies. All these competitors had some advantages over Milkpak, either in terms of more experience, better distribution networks, or more convenient packaging. Furthermore, the government was now encouraging companies to enter the market by making exemptions on the import of machinery for dairy plants and by providing low cost financing by several government agencies. The government had also sanctioned a number of additional plants which would be in working condition soon. The concern now was that the UHT milk industry would be facing a substantial overcapacity. It was thus decided that finding an appropriate joint venture partner would be a viable solution to the problem of growth for Milkpak. As it would provide Milkpak with the opportunity to obtain new capacity, expertise and technological knowledge which was very much required. And also that Joint venture with any of the competing firms would possibly wipe off the competition from the market. In assessing Nestle as a joint venture partner, there were many advantages to both Milkpak and to the Pakistani industry as a whole. However, the company still faced certain drawbacks. Both companies were likely to be concerned about management control of the operation. Another point which needed to be settled was what products were to be manufactured and where they would be produced. Mission statement Nestlà ©s mission is to provide the best food to people throughout the world. Objectives and core values Lead a dynamic motivated and professional workforce proud of its heritage and bullish about the future.  · Meet the nutritional needs of consumers of all age groups from infancy to old age, from nutrition to pleasure, through an innovative portfolio of branded food and beverage products of the highest quality.  · Deliver shareholder value through profitable long-term growth, while continuing to play a significant and responsible role in the social, economic and environmental sectors of the country. Development of strategy There are many models for the development of strategy i.e. Potters generic strategies. There are 3 generic strategies of potter Cost leadership Differentiation Focus Anssoff Matrix Provides the basis for an organizations objective setting and sets the foundation of directional policy for its future (Bennett, 1994). The best selection for Milk pack is cost leadership. For this purpose Milk pack needs to outsource it non core activities. The major risk of outsourcing is that you may not be building the value of your company in terms of personnel, in-house knowledge, and infrastructure. In this case, the value of an outsourcing agreement with a provider will be less effective than an internal department. Implementation plan for strategy Strategy making needs person with vision whereas strategy implementation needs a person with administrative ability The implementation plan can be divided into many parts Project Implementation requires the management to have a firm grasp of the strategy to be implemented. Project management involves recognition of critical success path. With all the activities lying in the critical success path will then be given significant importance. If a project needs to be implemented in time, then all the activities lying on the critical success of must be performed on time. Procedural Implementation means that milk pack has to bring change in its value chain. The value chain describes all the core activities of the business. After all the core activities of the business have been recognized, support activities can be removed or restructured. Resource Allocation is the most important part of the strategy. If proper allocation of the resources is not made the strategy might not be implemented. Before choosing a strategy for implementation the company carefully analyses all its resources and then allocates some resources for implementation of the strategy. For the strategy of outsourcing to work it is necessary that Milkpak is able to find a suitable company to outsource. This requires a lot of time and effort, appropriate resources and time allocation needs to be made. Structural Implementation is necessary if the company requires a change in structure to support the strategy. Without the proper structure for the strategy, the strategy is bound to fail. Functional Implementation means the division of objectives of strategy into functional achievable and goals i.e. budgets. This is the implementation of the strategy at grass root level. Behavioral Implementation suggests a change in the culture of the organization. The people of the organization need to accept the change in strategy. If the people are working hard to implement the strategy then there is a good chance that the strategy will be successfull Conclusion This case study shows how a relatively small company in a developing country made an error by choosing a wrong strategy and powerful and aggressive joint venture partner. Milkpak wanted to retain control and majority ownership of the joint venture but Nestle, although having an initial stake of only 49%, managed to increase it by forcing new technologies and acquisitions into the partnership. The Ali Group could not keep up with these expenses and Nestle thus raised its participation to 67%, relegating the Ali family to the role of spectators. Friesland would have been a much better partner due to its smaller size. They efficiently co-operate with local companies in many countries, letting them to conduct the operations without trying to take over their partner. Unfortunately, they committed some important mistakes during the negotiations, like not allowing the Milkpak management to see their milk powder factory, thus leading Milkpak to believe that they were trying to hide technolog y from them. On the other hand, Nestle swiftly sent one of its vice presidents to Pakistan, showing respect for Milkpak. This senior executive proved to be very familiar with this kind of operations and he flattered Milkpak, admiring the quality of their products. Thanks to this smart negotiation, both emphasizing their experience in operating milk powder factories in Asia and showing deference to Milkpak, Nestle won the deal. This shows how much it is important to know the culture of the persons you are negotiating with, in order to be able to adapt. Failure to do so may lead to an unfortunate outcome.

Transit Oriented Development Essay -- Urban Trasportation Essays

Transit Oriented Development Introduction Policy makers across the country are focusing on numerous ways to combat sprawl throughout the United States. New movements, such as new urbanism, have come to the forefront in this fight. This review is looking into a new concept in the fight on sprawl, called Transit-oriented development or TOD. Although this new tool to fight sprawl is rapidly becoming a popular method, it is still a new concept and needs to be studied further. This review will provide insight into the historical background of this developing idea, look at case studies of how this new strategy has worked and failed so far, and provide a glimpse into what the future holds for this novel concept. Transit-oriented Design Objectives Transit-oriented development is defined as the creation of compact, walkable communities centered around train systems. TODs mix residential, retail, office, open space, and public uses in a walkable environment, making it convenient for residents and employees to travel by transit, bicycle, foot, or car† (2). Like conventional development around transit stations, TOD aims to increase transit ridership. However, unlike conventional development around a transit station, TOD plans are based on goals of improving transportation options, creating walkable communities, as well as improving â€Å"neighborhood cohesion, social diversity, conservation, public safety, and community revitalization† (3). TOD design principles contain elements that are intended to achieve these social, neighborhoods, regional, and transportation goals. If all of these goals are met development will become focused on high-density areas instead of a centrifugal developmental process. Transit-orie nted develop... ...ng our natural and cultural landscapes from uncontrolled development. Works Cited 1. Barton, Michael and Charles, John A. The Mythical World of Transit-Oriented Development: Light Rail and the Orenco Neighborhood, Hillsboro, Oregon. Cascade Policy Institute (2003). 2. Calthorpe, Peter. The Next American Metropolis: Ecology, Community, and the American Dream. New York: Princeton Architectural Press (1993). 3. Cervero, Robert. Rail Transit and Joint Development: Land Market Impacts in Washington, D.C. and Atlanta. APA Journal 60 (Winter 1994): 83-94. 4. Cort, Cheryl and Mary Gute. Building Healthier Neighborhoods with Metrorail: Improving Joint Development Opportunities. A Chesapeake Bay Foundation Report (2001). 5. Menotti, Val Joseph. The New Transit Town: Best Practices in Transit-Oriented Development. APA 71 (Winter 2005) pg. 111 Transit Oriented Development Essay -- Urban Trasportation Essays Transit Oriented Development Introduction Policy makers across the country are focusing on numerous ways to combat sprawl throughout the United States. New movements, such as new urbanism, have come to the forefront in this fight. This review is looking into a new concept in the fight on sprawl, called Transit-oriented development or TOD. Although this new tool to fight sprawl is rapidly becoming a popular method, it is still a new concept and needs to be studied further. This review will provide insight into the historical background of this developing idea, look at case studies of how this new strategy has worked and failed so far, and provide a glimpse into what the future holds for this novel concept. Transit-oriented Design Objectives Transit-oriented development is defined as the creation of compact, walkable communities centered around train systems. TODs mix residential, retail, office, open space, and public uses in a walkable environment, making it convenient for residents and employees to travel by transit, bicycle, foot, or car† (2). Like conventional development around transit stations, TOD aims to increase transit ridership. However, unlike conventional development around a transit station, TOD plans are based on goals of improving transportation options, creating walkable communities, as well as improving â€Å"neighborhood cohesion, social diversity, conservation, public safety, and community revitalization† (3). TOD design principles contain elements that are intended to achieve these social, neighborhoods, regional, and transportation goals. If all of these goals are met development will become focused on high-density areas instead of a centrifugal developmental process. Transit-orie nted develop... ...ng our natural and cultural landscapes from uncontrolled development. Works Cited 1. Barton, Michael and Charles, John A. The Mythical World of Transit-Oriented Development: Light Rail and the Orenco Neighborhood, Hillsboro, Oregon. Cascade Policy Institute (2003). 2. Calthorpe, Peter. The Next American Metropolis: Ecology, Community, and the American Dream. New York: Princeton Architectural Press (1993). 3. Cervero, Robert. Rail Transit and Joint Development: Land Market Impacts in Washington, D.C. and Atlanta. APA Journal 60 (Winter 1994): 83-94. 4. Cort, Cheryl and Mary Gute. Building Healthier Neighborhoods with Metrorail: Improving Joint Development Opportunities. A Chesapeake Bay Foundation Report (2001). 5. Menotti, Val Joseph. The New Transit Town: Best Practices in Transit-Oriented Development. APA 71 (Winter 2005) pg. 111

Nurse’s Professional Image

Over the years, the nursing profession has faced an image overhaul that concretely defined her role in the society. The nurse uniforms which exude the most identifiable mark of the profession in the health sector and the society have also faced alterations that greatly affect the public’s perception of nurses. In an exhibit at the Philadelphia’s Fabric Workshop, many conclude that nurses are no longer identifiable with the profession. The contemporary transitions that constantly evolved to define her busy role has brought forth an identity crisis that even patients, family members, other health professionals and workers have difficulty labeling her role in the health care setting. This transition was highly observed in the last two decades as nurses have found the ease in wearing casual and sometime colorful uniform attire (Harrion, 2001:41)(Houweling, 2004:42). The identity of the white uniform became lost as nurses prefer the comfort and ease of the scrub uniforms (Houweling, 2004:40). In the past decades, the nurse in a white uniform communicated a professional confidence brought about by the competency of her job and training. The nurse’s cap was also the known distinguishing mark that respectable nurses wore based on Florence Nightingale’s 1874 model(Dodd,2005:7).To look back, the earliest uniforms focused more on functionality and feminine virtue and were more or less associated with the religious orders and military nursing groups (Ellis and Harley, 2004: 185). The propriety of wearing a cap also followed uniformity as a respectable way for women to earn and be distinguished at the institution. The early uniforms were long, starched long sleeves with detachable collars and cuff that included a cape that could be worn during the winter months (Houweling, 2004:41). By the end of the 19th century, the functional white dress was adapted that catered to the evolution of pantsuits in the 60’s. The traditional nurse uniform has existed in many variants from the dress, apron and cap yet the basic style has remained recognizable in many years (Hallam, 41). In the late 60’s, psychiatric nurses pushed against the white uniform in their setting and were finally allowed to wear street clothes in the 1970’s. In the 1980’s, many hospitals no longer required nurses to wear the nursing cap given their expanded nursing roles (Ellis, Hartley & Love: 184). Harrion explained that the cap discourages the men from entering the profession and the cap is identified with a â€Å"handmaiden† mark attached to it which is contradicted as male nurses were unlikely forced to wear the nurses’ cap, this status was reserved for the female nurses. Another insistence is that the cap was quite hard to keep clean which is again contradicted merely by the fact that starched caps can be dry cleaned. Even the nursing pin which was a significant mark and a â€Å"coat of arms† of the nursing profession has lost its appeal. Contemporary nurses are now reduced to wearing comfortable scrubs that were once limited to the specialty areas such as the CCU, ICU and ER where practicality is an issue. In Japan, nurses were once kimono clad and appeared like the under-maid types to keep their tradition alive (Takahashi, 2004: 4). Stimulated by the women’s position in the western society, the western concept of the profession gained popular adherence as the white uniform was adapted for all Japanese nurses in the health service (Takahashi:5). This process faced grandstanding as Japanese doctors trained Europe pushed for the adoption of the white uniform among the Japanese nurses in an effort to positively uplift and identify the professional nurse. After many years of retaining their traditional garb, Japan soon realized that issues of hygiene and practicality were at stake. Further they were able to realize and understand that the nursing uniform embodies probity and purity that is needed to overhaul the image of the female workers in Japan. Today, the nursing profession is again facing major upheavals that de-emphasize the purity of the standard white uniform in favor of the comfortable scrubs. This is a dilemma that nurses face in a work setting where many other caregivers wear the same garb. Patients and other health workers have trouble identifying the nurse from the rest of the ordinary caregivers. The public image of the nursing profession is suffering as the effort to communicate the value of the profession is diminishing. Mangum, Garrison, Lind, Thackeray and Wyatt once recommend that nurses wear clothing that clearly distinguish them as professional nurses (Ellis, Hartley & Love, 2004: 184). Others believed that the white standard uniform exudes power and authority compared to the rumpled and disordered appearance of the colored scrubs. Despite the many images equated with the profession and the media’s continued assault on the appearance of nurses there is an immediate need to revamp the current attire. White according to most nurses denotes sanitation and cleanliness; they could be tailored and modified to enhance the figure using a fine material with insignias that could denote rank and position would give power and authority over the other ordinary caregivers in the health institution. Given the physical exertion of the profession, the cap might pose to be too unrealistic. This could prove to be more amenable rather than seeing professional nurses around the hospital garbed in attire that are commonly worn by the orderlies. This is an image problem and physicians would probably like to see nurses in uniforms of power rather than in rumpled an colored attires dressed like ordinary orderlies. The uniform is what makes nurses look good and present a professional appearance. When one wears costumes that convey their attributes, virtues and training, the patient sees the nurse as someone he can trust along with his physician. Wearing a well-tailored uniform and displaying the nursing pin helps nurses from being belittled by patients and their families. Nurses give up their power and authority as a profession when not dressed uniformly and loose their self-esteem when viewed ordinarily (Masters, 2005:130). The uniform identifies the specific and unique place that professional nurses have in the health care system (Masters, 2005:112). Thus, if nurses wish for doctors to treat them as colleagues in healthcare, society to acknowledge them as authorities, and to be paid as the profession deserves, the professional image should be insisted. Therefore if one wishes to be treated as a â€Å"ministering angel† (Hallam: 133); or as a professional and as a privileged individual, the professional appearance must portray a positive public image (Dodd, 2005: 6). Works Cited Hallam, Julia. Nursing the Image:   Media, Image and Professional Identity. Routledge. Masters, Kathleen. (2005). Role Development in Professional Nursing Practice. Jones and Bartlett Publishers. Ellis, Janice Rider and Hartley, Love, Celia. (2004). Nursing in today’s World: Challenges, Issues and Trends. Lippincott Williams and Wilkins. Takahashi, Aya. (2004). The Development of the Japanese Nursing Profession: Adopting and Adapting Western Influences. Routledge. Harrion, Lois. (20010. Professional Practical/Vocational Nursing. Thomson Delmar Learning. Houweling, Lynn. (2004, April). Image, Function, and Style: A history of the nursing uniform.   American Journal of Nursing, 104, 4. p. 40 – 48 Dodd, Elizabeth, Bates, C., Rousseau, N. (eds). (2005). On All Frontiers: Four Centuries of Canadian Nursing. Ottawa: University of Ottawa.   

Annie Dillard. Bio Essay

HEATHER PERPENTE (352)-438-8151 10060 SE 149TH LANE SUMMERFIELD FL, 34491 HEATHER. [email  protected] EDU APRIL 3, 2013 NATALIE PEETERSE SOUTHERN NEW HAMPSHIRE UNIVERSITY Annie Dillard started out her writing career misunderstood but admirable. Dillard became well known after her first published book, ‘Pilgrim at Tinker Creek’ won the 1974 ‘Pulitzer Prize for General nonfiction at age 29. She received many complaints on her first novel such as, â€Å"not one genuine ecological concern is voiced in the entire book,† critics state. (Begiebing) Dillard’s eputation has exceeded what was once known as boring and unsatisfactory to one of admiration. In a review of ‘Pilgrim at Tinker Creek,’ Hayden Carruth states, â€Å"In many respects to Annie Dillard’s book, ‘Pilgrim at Tinker Creek,’ is so ingratiating that even readers who find themselves in fundamental disagreement with it may take pleasure from it, a good deal of pl easure. † (Carruth) Indeed Carruth is correct. Dillard’s creativity with and in nature puts us in awe. Her writing is abhorrent and yet so beautiful. In 1971 Dillard stumbled upon an old writer’s nature book and thought, â€Å"I can do better than this. (Dillard) In 1968, Dillard spent a few years, following her graduation, by oil painting, writing, and keeping a journal. This journal is how many of her first poems and short stories were published In this journal, ‘Pilgrim at Tinker Creek’ slowly started it’s well known novel. Dillard began her writing career as a young adult attending Hollins College (now Hollins University). Dillard studied literature and creative writing which motivated her to read classic novels as well as many books that humanity has promised themselves to read in the future, but never got around to it. After spending some time n college, Dillard married her writing teacher, the poet R. H. W. Dillard. In college, I learn ed how to learn from other people. As far as I was concerned, writing in college didn’t consist of what little Annie had to say, but what Wallace Stevens had to say. I didn’t come to college to think my own thoughts; I came to college to learn what had been thought. † (Dillard) Like many other creations in life, her writing began with a simple thought†¦ At the end of the island I noticed a small green frog. He was exactly half in and half out of the water, looking like a schematic diagram of an amphibian, and he didn’t jump.He didn’t jump; I crept closer. At last I knelt on the island’s winter killed grass, lost, dumbstruck, staring at the frog in the creek just four feet away. He was a very small frog with wide, dull eyes. And just as I looked at him, he slowly crumpled and began to sag. The spirit vanished from his eyes as if snuffed. His skin emptied and drooped; his very skull seemed to collapse and settle like a kicked tent. He was shrinking before my eyes like a deflating football. I watched the taut, glistening skin on his shoulders ruck, and rumple, and fall. Soon, part of his skin, formless s a pricked balloon, lay in floating folds like bright scum on top of the water; it was a monstrous and terrifying thing. I gaped bewildered, appalled. An oval shadow hung in the water behind the drained frog; then the shadow glided away. The frog skin bag started to sink. I had read about the giant water bug, but never seen one. â€Å"Giant water bug† is really the name of the creature, which is an enormous, heavy-bodied brown bug. It eats insects, tadpoles, fish, and frogs. Its grasping forelegs are mighty and hooked inward. It seizes a victim with these legs, hugs it tight, and paralyzes it with nzymes injected during a vicious bite. That one bite is the only bite it ever takes. Through the puncture shoot the poisons that dissolve the victim’s muscles and bones and organs – all but the skin †“ and through it the giant water bug sucks out the victim’s body, reduced to a juice. (Dillard) In the above quoted passage from ‘Pilgrim at Tinker Creek,’ Dillard describes an event of nature that is both horrible and beautiful. Through each stage of a life, being human, animal, or insect, life has its beauty and value. We live and evolve and learn with every stage of our life. Does beauty lie in the eye of the observer? † (Krishnamurti) What an excellent question. Every individual has their own eye for beauty, but nature is the one beauty of the world that will never die. Dillard’s eye of beauty is unique. She discovers two ways in which to view nature: one of passionate and fixed attention to all things around her, and her second state is focused on an unaware state, where she connects, lives, and is the nature around her without regards to time in the present state. Dillard’s two states of ‘stalking’ and unawareness differ i n various ways, but llow her to connect with nature and her surroundings on a whole different level of understanding and appreciation. In ‘Pilgrim at Tinker Creek,’ Dillard relives multiple events in the past using both states (aware and unaware) to evaluate lessons she has learned and the closeness she experienced with nature. Dillard appears to be in confusion to which state of mind is most precious in the world, awareness or unaware. Dillard feels that the state of awareness is to be valued for it is a state of mind that does distinguish humanity from both, our creator (god) and our fellow animal friends.Without our ability to distinguish ourselves from other ‘creations,’ humanity would not easily learn and acquire information regarding the many creatures before us and nature itself, while being partially blind to our current surroundings as they stand before us. While at Tinker Creek, Dillard’s appreciation for plants and animals come by no surpr ise, but while she greatly admires the state of awareness, she has multiple interpretations of the state. Dillard implies that by being aware all the time may slow down, or deprive us from our experiences and living conditions in the here-and-now time frame.The state of awareness, or â€Å"innocence†, Dillard believes to be the ultimate state to view nature and the world in. By being in her â€Å"innocence† state, she becomes, (experiences first hand) all things surrounding her. She is able to â€Å"Live them as purely as we can, in the present. † BY the spirits â€Å"Unself-conscious state at any moment of pure devotion to any object. † (Dillard) When learning, experiencing, and connecting with nature, both states, â€Å"innocence† and â€Å"stalking† are necessary to Dillard. Dillard’s section including the frog that slowly has its insides liquefied then devoured, allows er to witness such creatures in their natural state while â₠¬Å"stalking† them. Dillard examines a Giant Water bug inject, liquefy, and devour its dinner; she watched the frogs spirit drift away from its eyes, and its skin sag, to be swept away by the ocean. Dillard evaluates the feelings of horror but beauty by this event which in return, helps her observe and learn from the events of nature while at Tinker Creek. From experiencing her â€Å"innocence† and â€Å"stalking† state, Dillard states, â€Å"I am prying into secrets again, and taking my chances. I might not see anything happen; I ight see nothing but light on the water. I walk home exhilarated or becalmed, but always changed, alive. † (Dillard) I believe that while Dillard visits Tinker Creek, she gives us a gift; the tool to observe nature, seeing and experiencing every event; a new view for appreciating nature in its beauty and horror. Through Dillard, and many other authors, we must find our own way to experience and learn from nature, whether that is t hrough reading such books as ‘Pilgrim at Tinker Creek’, or a nature hike of our own, if we choose to learn from nature. We can learn a great deal from nature writers ll over the world. Dillard views beauty in nature through horrible events by learning and experiencing thousands of things nature has to show and teach us. Dillard learns that while a picture of a darkened sky with remnants of clouds is a wonderful experience, nature, just like everything else beautiful in the world, has a horrible side that is seen when watching. â€Å"It’s the most beautiful day of the year. At four O’clock the eastern sky is a dead stratus black flecked with low white clouds. The sun in the west illuminates the ground, the mountains, nd especially the bare branches of trees, so that everywhere silver trees cut into the black sky like a photographers negative of a landscape. † (Dillard) WORK CITED: 1. Elliott, Sandra S. â€Å"Annie Dillard Biography. †Ã‚  Annie Dillard Biography. Rob Anderson, n. d. Web. 29 Mar. 2013. http://hubcap. clemson. edu/~sparks/dillard/bio. htm 2. Krishnamurti, J. â€Å"The Beauty of Death as Part of Life. †Ã‚  J. Krishnamurti Online. Krishnamurti Foundation, Sept. 2012. Web. 29 Mar. 2013. http://www. jkrishnamurti. org/krishnamurti-teachings/view-text. php? tid=1515&chid=1212

Definition of Air Pollution Essay Example

Definition of Air Pollution Essay Example Definition of Air Pollution Paper Definition of Air Pollution Paper 1. Definition of air pollution Air pollution is the introduction of chemicals, particulate matter, or biological materials that cause harm or discomfort to humans or other living organisms, or cause damage to the natural environment or built environment, into the atmosphere. The atmosphere is a complex dynamic natural gaseous system that is essential to support life on planet Earth. Stratospheric ozone depletion due to air pollution has long been recognized as a threat to human health as well as to the Earths ecosystems. Indoor air pollution and urban air quality are listed as two of the worlds worst pollution problems in the 2008 Blacksmith Institute Worlds Worst Polluted Places report. [1] Define Air pollutants Pollutants Main articles: Pollutant and Greenhouse gas Before flue gas desulfurization was installed, the emissions from this power plant in New Mexico contained excessive amounts of sulfur dioxide. Schematic drawing, causes and effects of air pollution: (1) greenhouse effect, (2) particulate contamination, (3) increased UV radiation, (4) acid rain, (5) increased ground level ozone concentration, (6) increased levels of nitrogen oxides. A substance in the air that can cause harm to humans and the environment is known as an air pollutant. Pollutants can be in the form of solid particles, liquid droplets, or gases. In addition, they may be natural or man-made. [2] Pollutants can be classified as primary or secondary. Usually, primary pollutants are directly emitted from a process, such as ash from a volcanic eruption, the carbon monoxide gas from a motor vehicle exhaust or sulfur dioxide released from factories. Secondary pollutants are not emitted directly. Rather, they form in the air when primary pollutants react or interact. An important example of a secondary pollutant is ground level ozone  - one of the many secondary pollutants that make up photochemical smog. Some pollutants may be both primary and secondary: that is, they are both emitted directly and formed from other primary pollutants. About 4 percent of deaths in the United States can be attributed to air pollution, according to the Environmental Science Engineering Program at the Harvard School of Public Health. [citation needed] Major primary pollutants produced by human activity include: * Sulfur oxides (SOx) especially sulphur dioxide, a chemical compound with the formula SO2. SO2 is produced by volcanoes and in various industrial processes. Since coal and petroleum often contain sulphur compounds, their combustion generates sulfur dioxide. Further oxidation of SO2, usually in the presence of a catalyst such as NO2, forms H2SO4, and thus acid rain. [2] This is one of the causes for concern over the environmental impact of the use of these fuels as power sources. Nitrogen oxides (NOx) especially nitrogen dioxide are emitted from high temperature combustion. Can be seen as the brown haze dome above or plume downwind of cities. Nitrogen dioxide is the chemical compound with the formula NO2. It is one of the several nitrogen oxides. This reddish-brown toxic gas has a characteristic sharp, biting odor. NO2 is one of the most prominent air pollutants. * Carbon monoxide is a colourless, odorless, non-irritatin g but very poisonous gas. It is a product by incomplete combustion of fuel such as natural gas, coal or wood. Vehicular exhaust is a major source of carbon monoxide. * Carbon dioxide (CO2) a colourless, odorless, non-toxic greenhouse gas associated with ocean acidification, emitted from sources such as combustion, cement production, and respiration * Volatile organic compounds VOCs are an important outdoor air pollutant. In this field they are often divided into the separate categories of methane (CH4) and non-methane (NMVOCs). Methane is an extremely efficient greenhouse gas which contributes to enhanced global warming. Other hydrocarbon VOCs are also significant greenhouse gases via their role in creating ozone and in prolonging the life of methane in the atmosphere, although the effect varies depending on local air quality. Within the NMVOCs, the aromatic compounds benzene, toluene and xylene are suspected carcinogens and may lead to leukemia through prolonged exposure. 1,3-butadiene is another dangerous compound which is often associated with industrial uses. * Particulate matter Particulates, alternatively referred to as particulate matter (PM) or fine particles, are tiny particles of solid or liquid suspended in a gas. In contrast, aerosol refers to particles and the gas together. Sources of particulate matter can be man made or natural. Some particulates occur naturally, originating from volcanoes, dust storms, forest and grassland fires, living vegetation, and sea spray. Human activities, such as the burning of fossil fuels in vehicles, power plants and various industrial processes also generate significant amounts of aerosols. Averaged over the globe, anthropogenic aerosols- those made by human activities- currently account for about 10 percent of the total amount of aerosols in our atmosphere. Increased levels of fine particles in the air are linked to health hazards such as heart disease,[3] altered lung function and lung cancer. * Persistent free radicals connected to airborne fine particles could cause cardiopulmonary disease. [4][5] * Toxic metals, such as lead, cadmium and copper. * Chlorofluorocarbons (CFCs) harmful to the ozone layer emitted from products currently banned from use. * Ammonia (NH3) emitted from agricultural processes. Ammonia is a compound with the formula NH3. It is normally encountered as a gas with a characteristic pungent odor. Ammonia contributes significantly to the nutritional needs of terrestrial organisms by serving as a precursor to foodstuffs and fertilizers. Ammonia, either directly or indirectly, is also a building block for the synthesis of many pharmaceuticals. Although in wide use, ammonia is both caustic and hazardous. * Odors  - such as from garbage, sewage, and industrial processes * Radioactive pollutants produced by nuclear explosions, war explosives, and natural processes such as the radioactive decay of radon. Secondary pollutants include: Particulate matter formed from gaseous primary pollutants and compounds in photochemical smog. Smog is a kind of air pollution; the word smog is a portmanteau of smoke and fog. Classic smog results from large amounts of coal burning in an area caused by a mixture of smoke and sulfur dioxide. Modern smog does not usually come from coal but from vehicular and industrial emissions that are acted on in the atmosphere by ultraviolet light from the sun to form secondary pollutants that also combine with the primary emissions to form photochemical smog. Ground level ozone (O3) formed from NOx and VOCs. Ozone (O3) is a key constituent of the troposphere. It is also an important constituent of certain regions of the stratosphere commonly known as the Ozone layer. Photochemical and chemical reactions involving it drive many of the chemical processes that occur in the atmosphere by day and by night. At abnormally high concentrations brought about by human activities (largely the combustion of fossil fuel), it is a pollutant, and a constituent of smog. Peroxyacetyl nitrate (PAN) similarly formed from NOx and VOCs. Minor air pollutants include: * A large number of minor hazardous air pollutants. Some of these are regulated in USA under the Clean Air Act and in Europe under the Air Framework Directive. * A variety of persistent organic pollutants, which can attach to particulate matter. Persistent organic pollutants (POPs) are organic comp ounds that are resistant to environmental degradation through chemical, biological, and photolytic processes. Because of this, they have been observed to persist in the environment, to be capable of long-range transport, bioaccumulate in human and animal tissue, biomagnify in food chains, and to have potential significant impacts on human health and the environment. Sources Main article: AP 42 Compilation of Air Pollutant Emission Factors Dust storm approaching Stratford, Texas Controlled burning of a field outside of Statesboro, Georgia in preparation for spring planting Sources of air pollution refer to the various locations, activities or factors which are responsible for the releasing of pollutants into the atmosphere. These sources can be classified into two major categories which are: Anthropogenic sources (human activity) mostly related to burning different kinds of fuel * Stationary Sources include smoke stacks of power plants, manufacturing facilities (factories) and waste incinerators, as well as furnaces and other types of fuel-burning heating devices * Mobile Sources include motor vehicles, marine vessels, aircraft and the effect of sound etc. * Chemicals, dust and controlled burn practices in agriculture and forestry management. Controlled or prescribed burning is a technique sometimes used in forest management, farming, prairie restoration or greenhouse gas abatement. Fire is a natural part of both forest and grassland ecology and controlled fire can be a tool for foresters. Controlled burning stimulates the germination of some desirable forest trees, thus renewing the forest. * Fumes from paint, hair spray, varnish, aerosol sprays and other solvents * Waste deposition in landfills, which generate methane. Methane is not toxic; however, it is highly flammable and may form explosive mixtures with air. Methane is also an asphyxiant and may displace oxygen in an enclosed space. Asphyxia or suffocation may result if the oxygen concentration is reduced to below 19. 5% by displacement * Military, such as nuclear weapons, toxic gases, germ warfare and rocketry Natural sources * Dust from natural sources, usually large areas of land with little or no vegetation * Methane, emitted by the digestion of food by animals, for example cattle * Radon gas from radioactive decay within the Earths crust. Radon is a colorless, odorless, naturally occurring, radioactive noble gas that is formed from the decay of radium. It is considered to be a health hazard. Radon gas from natural sources can accumulate in buildings, especially in confined areas such as the basement and it is the second most frequent cause of lung cancer, after cigarette smoking * Smoke and carbon monoxide from wildfires * Vegetation, in some regions, emits environmentally significant amounts of VOCs on warmer days. These VOCs react with primary anthropogenic pollutants- specifically, NOx, SO2, and anthropogenic organic carbon compounds- to produce a seasonal haze of secondary pollutants. 6] * Volcanic activity, which produce sulfur, chlorine, and ash particulates Emission factors Main article: AP 42 Compilation of Air Pollutant Emission Factors Air pollutant emission factors are representative values that people attempt to relate the quantity of a pollutant released to the ambient air with an activity associated with the release of that pollutant. These factors are usually expressed as the weight of pollutant divided by a unit wei ght, volume, distance, or duration of the activity emitting the pollutant (e. g. , kilograms of particulate emitted per megagram of coal burned). Such factors facilitate estimation of emissions from various sources of air pollution. In most cases, these factors are simply averages of all available data of acceptable quality, and are generally assumed to be representative of long-term averages. The United States Environmental Protection Agency has published a compilation of air pollutant emission factors for a multitude of industrial sources. [7] The United Kingdom, Australia, Canada and many other countries have published similar compilations, as well as the European Environment Agency. [8][9][10][11][12] Indoor air quality (IAQ) Main article: Indoor air quality A lack of ventilation indoors concentrates air pollution where people often spend the majority of their time. Radon (Rn) gas, a carcinogen, is exuded from the Earth in certain locations and trapped inside houses. Building materials including carpeting and plywood emit formaldehyde (H2CO) gas. Paint and solvents give off volatile organic compounds (VOCs) as they dry. Lead paint can degenerate into dust and be inhaled. Intentional air pollution is introduced with the use of air fresheners, incense, and other scented items. Controlled wood fires in stoves and fireplaces can add significant amounts of smoke particulates into the air, inside and out. [13] Indoor pollution fatalities may be caused by using pesticides and other chemical sprays indoors without proper ventilation. Carbon monoxide (CO) poisoning and fatalities are often caused by faulty vents and chimneys, or by the burning of charcoal indoors. Chronic carbon monoxide poisoning can result even from poorly adjusted pilot lights. Traps are built into all domestic plumbing to keep sewer gas, hydrogen sulfide, out of interiors. Clothing emits tetrachloroethylene, or other dry cleaning fluids, for days after dry cleaning. Though its use has now been banned in many countries, the extensive use of asbestos in industrial and domestic environments in the past has left a potentially very dangerous material in many localities. Asbestosis is a chronic inflammatory medical condition affecting the tissue of the lungs. It occurs after long-term, heavy exposure to asbestos from asbestos-containing materials in structures. Sufferers have severe dyspnea (shortness of breath) and are at an increased risk regarding several different types of lung cancer. As clear explanations are not always stressed in non-technical literature, care should be taken to distinguish between several forms of relevant diseases. According to the World Health Organisation (WHO)[dead link], these may defined as; asbestosis, lung cancer, and mesothelioma (generally a very rare form of cancer, when more widespread it is almost always associated with prolonged exposure to asbestos). Biological sources of air pollution are also found indoors, as gases and airborne particulates. Pets produce dander, people produce dust from minute skin flakes and decomposed hair, dust mites in bedding, carpeting and furniture produce enzymes and micrometre-sized fecal droppings, inhabitants emit methane, mold forms in walls and generates mycotoxins and spores, air conditioning systems can incubate Legionnaires disease and mold, and houseplants, soil and surrounding gardens can produce pollen, dust, and mold. Indoors, the lack of air circulation allows these airborne pollutants to accumulate more than they would otherwise occur in nature. Health effects The World Health Organization states that 2. 4 million people die each year from causes directly attributable to air pollution, with 1. 5 million of these deaths attributable to indoor air pollution. [14] Epidemiological studies suggest that more than 500,000 Americans die each year from cardiopulmonary disease linked to breathing fine particle air pollution. . . [15] A study by the University of Birmingham has shown a strong correlation between pneumonia related deaths and air pollution from motor vehicles. [16] Worldwide more deaths per year are linked to air pollution than to automobile accidents. citation needed] Published in 2005 suggests that 310,000 Europeans die from air pollution annually. [citation needed] Causes of deaths include aggravated asthma, emphysema, lung and heart diseases, and respiratory allergies. [citation needed] The US EPA estimates that a proposed set of changes in diesel engine technology (Tier 2) could result in 12,000 fewer premature mortalities, 15,000 fewer heart attacks, 6,000 fewer emergency room visits by children with asthma, and 8,900 fewer respiratory-related hospital admissions each year in the United States. citation needed] The worst short term civilian pollution crisis in India was the 1984 Bhopal Disaster. [17] Leaked industrial vapors from the Union Carbide factory, belonging to Union Carbide, Inc. , U. S. A. , killed more than 25,000 people outright and injured anywhere from 150,000 to 600,000. The United Kingdom suffered its worst air pollution event when the December 4 Great Smog of 1952 formed over London. In six days more than 4,000 died, and 8,000 more died within the following months. citation needed] An accidental leak of anthrax spores from a biological warfare laboratory in the former USSR in 1979 near Sverdlovsk is believed to have been the cause of hundreds of civilian deaths. [citation needed] The worst single incident of air pollution to occur in the United States of America occurred in Donora, Pennsylv ania in late October, 1948, when 20 people died and over 7,000 were injured. [18] The health effects caused by air pollution may include difficulty in breathing, wheezing, coughing and aggravation of existing respiratory and cardiac conditions. These effects can result in increased medication use, increased doctor or emergency room visits, more hospital admissions and premature death. The human health effects of poor air quality are far reaching, but principally affect the bodys respiratory system and the cardiovascular system. Individual reactions to air pollutants depend on the type of pollutant a person is exposed to, the degree of exposure, the individuals health status and genetics. citation needed] A new economic study of the health impacts and associated costs of air pollution in the Los Angeles Basin and San Joaquin Valley of Southern California shows that more than 3800 people die prematurely (approximately 14 years earlier than normal) each year because air pollution levels violate federal standards. The number of annual premature deaths is considerably higher than the fatalities related to auto collisions in the same area, which average fewer than 2,000 per year. [19] Diesel exhaust (DE) is a major contributor to combustion derived particulate matter air pollution. In several human experimental studies, using a well validated exposure chamber setup, DE has been linked to acute vascular dysfunction and increased thrombus formation. [20][21] This serves as a plausible mechanistic link between the previously described association between particulate matter air pollution and increased cardiovascular morbidity and mortality. Effects on cystic fibrosis Main article: Cystic fibrosis A study from around the years of 1999 to 2000, by the University of Washington, showed that patients near and around particulate matter air ollution had an increased risk of pulmonary exacerbations and decrease in lung function. [22] Patients were examined before the study for amounts of specific pollutants like Pseudomonas aeruginosa or Burkholderia cenocepacia as well as their socioeconomic standing. Participants involved in the study were located in the United States in close proximity to an Environmental Protection Agency. [clarification needed] During the time of the study 117 deaths were associated with air pollution. Many patients in the study lived in or near large metropolitan areas in order to be close to medical help. These same patients had higher level of pollutants found in their system because of more emissions in larger cities. As cystic fibrosis patients already suffer from decreased lung function, everyday pollutants such as smoke, emissions from automobiles, tobacco smoke and improper use of indoor heating devices could further compromise lung function. [23] Effects on COPD Main article: Chronic obstructive pulmonary disease Chronic obstructive pulmonary disease (COPD) includes diseases such as chronic bronchitis, emphysema, and some forms of asthma. 24] A study conducted in 1960-1961 in the wake of the Great Smog of 1952 compared 293 London residents with 477 residents of Gloucester, Peterborough, and Norwich, three towns with low reported death rates from chronic bronchitis. All subjects were male postal truck drivers aged 40 to 59. Compared to the subjects from the outlying towns, the London subjects exhibited more severe respiratory symptoms (including cough, phlegm, and dyspnea), redu ced lung function (FEV1 and peak flow rate), and increased sputum production and purulence. The differences were more pronounced for subjects aged 50 to 59. The study controlled for age and smoking habits, so concluded that air pollution was the most likely cause of the observed differences. [25] It is believed that much like cystic fibrosis, by living in a more urban environment serious health hazards become more apparent. Studies have shown that in urban areas patients suffer mucus hypersecretion, lower levels of lung function, and more self diagnosis of chronic bronchitis and emphysema. [26] Effects on children Cities around the world with high exposure to air pollutants have the possibility of children living within them to develop asthma, pneumonia and other lower respiratory infections as well as a low initial birth rate. Protective measures to ensure the youths health are being taken in cities such as New Delhi, India where buses now use compressed natural gas to help eliminate the â€Å"pea-soup† smog. [27] Research by the World Health Organization shows there is the greatest concentration of particulate matter particles in countries with low economic world power and high poverty and population rates. Examples of these countries include Egypt, Sudan, Mongolia, and Indonesia. In the United States, the Clean Air Act was passed in 1970, however in 2002 at least 146 million Americans were living in non-attainment areas- regions in which the concentration of certain air pollutants exceeded federal standards. [28] Those pollutants are known as the criteria pollutants, and include ozone, particulate matter, sulfur dioxide, nitrogen dioxide, carbon monoxide, and lead. Because children are outdoors more and have higher minute ventilation they are more susceptible to the dangers of air pollution. Health effects in relatively clean areas Even in areas with relatively low levels of air pollution, public health effects can be significant and costly. This is because effects can occur at very low levels and a large number of people breathe in such pollutants. A 2005 scientific study for the British Columbia Lung Association showed that a small improvement in air quality (1% reduction of ambient PM2. 5 and ozone concentrations) would produce a $29 million in annual savings in the Metro Vancouver region in 2010. 29] This finding is based on health valuation of lethal (death) and sub-lethal (illness) effects. Reduction efforts There are various air pollution control technologies and land use planning strategies available to reduce air pollution. At its most basic level land use planning is likely to involve zoning and transport infrastructure planning. In most developed countries, land use planning is an important part of social policy, ensuring that land is used efficiently for the benefit of the wider economy and population as well as to protect the environment. Efforts to reduce pollution from mobile sources includes primary regulation (many developing countries have permissive regulations),[citation needed] expanding regulation to new sources (such as cruise and transport ships, farm equipment, and small gas-powered equipment such as lawn trimmers, chainsaws, and snowmobiles), increased fuel efficiency (such as through the use of hybrid vehicles), conversion to cleaner fuels (such as bioethanol, biodiesel, or conversion to electric vehicles). Control devices The following items are commonly used as pollution control devices by industry or transportation devices. They can either destroy contaminants or remove them from an exhaust stream before it is emitted into the atmosphere. * Particulate control * Mechanical collectors (dust cyclones, multicyclones) * Electrostatic precipitators An electrostatic precipitator (ESP), or electrostatic air cleaner is a particulate collection device that removes particles from a flowing gas (such as air) using the force of an induced electrostatic charge. Electrostatic precipitators are highly efficient filtration devices that minimally impede the flow of gases through the device, and can easily remove fine particulate matter such as dust and smoke from the air stream. * Baghouses Designed to handle heavy dust loads, a dust collector consists of a blower, dust filter, a filter-cleaning system, and a dust receptacle or dust removal system (distinguished from air cleaners which utilize disposable filters to remove the dust). * * Particulate scrubbersWet scrubber is a form of pollution control technology. The term describes a variety of devices that use pollutants from a furnace flue gas or from other gas streams. In a wet scrubber, the polluted gas stream is brought into contact with the scrubbing liquid, by spraying it with the liquid, by forcing it through a pool of liquid, or by some other contact method, so as to remove the pollutants. * Scrubbers * Baffle spray scrubber * Cyclonic spray scrubber * Ejector venturi scrubber * Mechanically aided scrubber * Spray tower * Wet scrubber * NOx control Low NOx burners * Selective catalytic reduction (SCR) * Selective non-catalytic reduction (SNCR) * NOx scrubbers * Exhaust gas recirculation * Catalytic converter (also for VOC control) * VOC abatement * Adsorption systems, such as activated carbon * Flares * Thermal oxidizers * Catalytic converters * Biofilters * Absorption (scrubbing) * Cryogenic condensers * Vapor recovery systems * Acid Gas/SO2 control * Wet scrubbers * Dry scrubbers * Flue gas desulfurization * Mercury control * Sorbe nt Injection Technology Electro-Catalytic Oxidation (ECO) * K-Fuel * Dioxin and furan control * Miscellaneous associated equipment * Source capturing systems * Continuous emissions monitoring systems (CEMS) Legal regulations Smog in Cairo In general, there are two types of air quality standards. The first class of standards (such as the U. S. National Ambient Air Quality Standards and E. U. Air Quality Directive) set maximum atmospheric concentrations for specific pollutants. Environmental agencies enact regulations which are intended to esult in attainment of these target levels. The second class (such as the North American Air Quality Index) take the form of a scale with various thresholds, which is used to communicate to the public the relative risk of outdoor activity. The scale may or may not distinguish between different pollutants. Cities Air pollution is usually concentrated in densely populated metropolitan areas, especially in developing countries where environmental regul ations are relatively lax or nonexistent. However, even populated areas in developed countries attain unhealthy levels of pollution. Governing Urban Air Pollution – a regional example (London) In Europe, Council Directive 96/62/EC on ambient air quality assessment and management provides a common strategy against which member states can â€Å"set objectives for ambient air quality in order to avoid, prevent or reduce harmful effects on human health and the environment . . . and improve air quality where it is unsatisfactory†. 30] On 25 July 2008 in the case Dieter Janecek v Freistaat Bayern CURIA, the European Court of Justice ruled that under this directive[30] citizens have the right to require national authorities to implement a short term action plan that aims to maintain or achieve compliance to air quality limit values. [31] This important case law appears to confirm the role of the EC as centralised regulator to European nation-states as regards air pollution control. It places a supranational legal obli gation on the UK to protect its citizens from dangerous levels of air pollution, furthermore superseding national interests with those of the citizen. In 2010, the European Commission (EC) threatened the UK with legal action against the successive breaching of PM10 limit values. [32] The UK government has identified that if fines are imposed, they could cost the nation upwards of ? 300 million per year. [33] In March 2011, the City of London remains the only UK region in breach of the EC’s limit values, and has been given 3 months to implement an emergency action plan aimed at meeting the EU Air Quality Directive. [34] The City of London has dangerous levels of PM10 concentrations, estimated to cause 3000 deaths per year within the city. 35] As well as the threat of EU fines, in 2010 it was threatened with legal action for scrapping the western congestion charge zone, which is claimed to have led to an increase in air pollution levels. [36] In response to these charges, Boris Johnson, Mayor of London, has criticised the current need for European cities to communicate with Europe through their nation state’s central go vernment, arguing that in future â€Å"A great city like London† should be permitted to bypass its government and deal directly with the European Commission regarding its air quality action plan. 34] In part, this is an attempt to divert blame away from the Mayors office, but it can also be interpreted as recognition that cities can transcend the traditional national government organisational hierarchy and develop solutions to air pollution using global governance networks, for example through transnational relations. Transnational relations include but are not exclusive to national governments and intergovernmental organisations [37] allowing sub-national actors including cities and regions to partake in air pollution control as independent actors. Particularly promising at present are global city partnerships. [38] These can be built into networks, for example the C40 network, of which London is a member. The C40 is a public ‘non-state’ network of the world’s leading cities that aims to curb their greenhouse emissions. [38] The C40 has been identified as ‘governance from the middle’ and is an alternative to intergovernmental policy. [39] It has the potential to improve urban air quality as participating cities â€Å"exchange information, learn from best practices and consequently mitigate carbon dioxide emissions independently from national government decisions†. 38] A criticism of the C40 network is that its exclusive nature limits influence to participating cities and risks drawing resources away from less powerful city and regional actors. Carbon dioxide emissions Total CO2 emissions Main article: List of countries by carbon dioxide emissions Per capita CO2 emissions[41] Main article: List of countries by carbon dioxide emissions per capita Atmospheric dispersion Main article: Atmospheric dispersion modeling The basic technology for analyzing air pollution is through the use of a variety of mathematical models for predicting the transport of air pollutants in the lower atmosphere. The principal methodologies are: * Point source dispersion, used for industrial sources. * Line source dispersion, used for airport and roadway air dispersion modeling * Area source dispersion, used for forest fires or duststorms * Photochemical models, used to analyze reactive pollutants that form smog Visualization of a buoyant Gaussian air pollution dispersion plume as used in many atmospheric dispersion models The point source problem is the best understood, since it involves simpler mathematics and has been studied for a long period of time, dating back to about the year 1900. It uses a Gaussian dispersion model for buoyant pollution plumes to forecast the air pollution isopleths, with consideration given to wind velocity, stack height, emission rate and stability class (a measure of atmospheric turbulence). [42][43] This model has been extensively validated and calibrated with experimental data for all sorts of atmospheric conditions. The roadway air dispersion model was developed starting in the late 1950s and early 1960s in response to requirements of the National Environmental Policy Act and the U. S. Department of Transportation (then known as the Federal Highway Administration) to understand impacts of proposed new highways upon air quality, especially in urban areas. Several research groups were active in this model development, among which were: the Environmental Research and Technology (ERT) group in Lexington, Massachusetts, the ESL Inc. group in Sunnyvale, California and the California Air Resources Board group in Sacramento, California. The research of the ESL group received a boost with a contract award from the United States Environmental Protection Agency to validate a line source model using sulfur hexafluoride as a tracer gas. This program was successful in validating the line source model developed by ESL inc. Some of the earliest uses of the model were in court cases involving highway air pollution, the Arlington, Virginia portion of Interstate 66 and the New Jersey Turnpike widening project through East Brunswick, New Jersey. Area source models were developed in 1971 through 1974 by the ERT and ESL groups, but addressed a smaller fraction of total air pollution emissions, so that their use and need was not as widespread as the line source model, hich enjoyed hundreds of different applications as early as the 1970s. Similarly photochemical models were developed primarily in the 1960s and 1970s, but their use was more specialized and for regional needs, such as understanding smog formation in Los Angeles, California. What Are the Six Common Air Pollutants? The Clean Air Act requires EPA to set National Ambient Air Quality Standards for six common air pollutants. These commonly found air pollutants (also k nown as criteria pollutants) are found all over the United States. They are particle pollution (often referred to as particulate matter), ground-level ozone, carbon monoxide, sulfur oxides, nitrogen oxides, and lead. These pollutants can harm your health and the environment, and cause property damage. Of the six pollutants, particle pollution and ground-level ozone are the most widespread health threats. EPA calls these pollutants criteria air pollutants because it regulates them by developing human health-based and/or environmentally-based criteria (science-based guidelines) for setting permissible levels. The set of limits based on human health is called primary standards. Another set of limits intended to prevent environmental and property damage is called secondary standards. Click on one of the pollutants below for information on sources of the pollutant, why the pollutant is of concern, health and environmental effects, efforts underway to help reduce the pollutant, and other helpful resources. * Ozone * Particulate Matter * Carbon Monoxide * Nitrogen Oxides * Sulfur Dioxide * Lead Air Pollution Trends For each of these pollutants, EPA tracks two kinds of air pollution trends: air concentrations based on actual measurements of pollutant concentrations in the ambient (outside) air at selected monitoring sites throughout the country, and emissions based on engineering estimates of the total tons of pollutants released into the air each year. Despite the progress made in the last 30 years, millions of people live in counties with monitor data showing unhealthy air for one or more of the six common air pollutants. For EPAs most recent evaluation of air pollution trends for these six pollutants, click on the following: * Latest Findings on National Air Quality: Status and Trends Health Effects Information Exposure to these pollutants is associated with numerous effects on human health, including increased respiratory symptoms, hospitalization for heart or lung diseases, and even premature death. Try these helpful resources: * Air Quality Index (AQI) * Ozone Good Up High, Bad Nearby * Ozone and Your Health * Particle Pollution and Your Health * Air Quality Guide for Ozone Air Quality Guide for Particle Pollution * Smog Who Does it Hurt? State Implementation Plan Status and Information EPA must designate areas as meeting (attainment) or not meeting (nonattainment) the standard. The Clean Air Act (CAA) requires states to develop a general plan to attain and maintain the NAAQS in all areas of the country and a specific plan to attain the standards for each area designated nonattainment for a NAAQ S. These plans, known as State Implementation Plans or SIPs, are developed by state and local air quality management agencies and submitted to EPA for approval. Detailed information about state SIP elements and their status can be found on the State Implementation Plan Status and Information page. Pollutants in the Ambient Air ;;Previous Next;; | + Air Pollution Menu The composition of unpolluted air is unknown to us. Humans have lived on the planet thousands of years and influenced the composition of the air through their many activities before it was possible to measure the constituents of the air. Air is a complex mixture made up of many chemical components. The primary components of air are nitrogen (N2), oxygen (O2), and water vapor (H2O). About 99 percent of air is nitrogen (78%) and oxygen (21%). The remaining percent includes trace quantities of substances such as carbon dioxide (CO2), methane (CH4), hydrogen (H2), argon (Ar) and helium (He). Figure:Whats in the air? In theory, the air has always been polluted to some degree. Natural phenomena such as volcanoes, wind storms, the decomposition of plants and animals, and even the aerosols emitted by the ocean pollute the air. However, the pollutants we usually refer to when we talk about air pollution are those generated as a result of human activity. An air pollutant can be considered as a substance in the air that, in high enough concentrations, produces a detrimental environmental effect. These effects can be either health effects or welfare effects. A pollutant can affect the health of humans, as well as the health of plants and animals. Pollutants can also affect non-living materials such as paints, metals, and fabrics. An environmental effect is defined as a measurable or perceivable detrimental change resulting from contact with an air pollutant. Human activities have had a detrimental effect on the makeup of air. Activities such as driving cars and trucks, burning of coal, oil and other fossil fuels, and manufacturing chemicals have changed the composition of air by introducing many pollutants. There are hundreds of pollutants in the ambient air. Ambient air is the air to which the general public has access, i. e. any unconfined portion of the atmosphere. The two basic physical forms of air pollutants are particulate matter and gases. Particulate matter includes small solid and liquid particles such as dust, smoke, sand, pollen, mist, and fly ash. Gases include substances such as carbon monoxide (CO), sulfur dioxide (SO2), nitrogen oxides (NO2), and volatile organic compounds (VOCs). Pollutants can also be classified as either primary pollutants or secondary pollutants. A primary pollutant is one that is emitted into the atmosphere directly from the source of the pollutant and retains the same chemical form. An example of a primary pollutant is the ash produced by the burning of solid waste. A secondary pollutant is one that is formed by atmospheric reactions of precursor or primary emissions. Secondary pollutants undergo a hemical change once they reach the atmosphere. An example of a secondary pollutant is ozone created from organic vapors given off at a gasoline station. The organic vapors react with sunlight in the atmosphere to produce the ozone, the primary component of smog. Control of secondary pollutants is generally more problematic than that of primary pollutants, because mitigation of secondary pollutants requires the identification of the precursor compounds and their sources as well as an understanding of the specific chemical reactions that result in the formation of the secondary pollutants. The Environmental Protection Agency (EPA) has further classified ambient air pollutants for regulatory purposes as hazardous air pollutants (HAPs) and criteria pollutants. Criteria pollutants are pollutants that have been identified as being both common and detrimental to human welfare and are found over all the United States (ubiquitous pollutants). EPA currently designates six pollutants as criteria pollutants. These criteria pollutants are: carbon monoxide (CO), sulfur oxides (SOx), nitrogen oxides (NOx), ozone (O3), lead (Pb), and particulate matter (PM). On the other hand, EPA refers to chemicals that cause serious health and environmental hazards as hazardous air pollutants (HAPs) or air toxics. Hazardous air pollutants are those pollutants that are known or suspected to cause cancer or other serious health effects, such as reproductive effects or birth defects, or adverse environmental effects. Units 5 and 6 of this module discuss in more details the criteria pollutants and the hazardous air pollutants. Causes of air pollution Air pollution is something that we cannot really ignore now-a-days. This is evident from the moment we step out of our house and are greeted with black colored smog that hits us directly reminding us that breathing clean air is more of a distant dream. It is so easy for us to endlessly rant and rave about the causes of air pollution and its ill effects, but little do we realize that each person is responsible for all the causes of air pollution and the situation that we face today. Take a look around you at the dismal state of affairs. The thick smog that is seen in the morning hours is not really due to somebody else but rather due to each and every one of us. Here is a look at the causes of air pollution and how it can affect us if the matter is not taken care of at this stage itself. Causes of Air Pollution: Carbon dioxide is one the main pollutants that causes air pollution. This is because, although living beings do exhale carbon dioxide, this gas is harmful when emitted from other sources, which are caused due to human activity. An additional release of carbon dioxide happens due to various such activities. Carbon dioxide gas is used in various industries such as the oil industry and the chemical industry. The manufacturing process of most products would require the use of this gas. There are various human activities that add to the increased proportions of carbon dioxide in the atmosphere. The combustion of fossil fuels and the harmful effects of deforestation have all contributed towards the same. show that amongst the various gasses emitted during a volcanic eruption, carbon dioxide remains to be at least 40% of the emission. Scientists have now therefore identified carbon dioxide as one of those elements that have contributed to global warming. Causes of air pollution are not limited to this. The combustion of fuels in automobiles, jet planes etc all cause the release of several primary pollutants into the air. The burning of fossil fuels in big cities which is seen at most factories, offices and even a large number of homes, it is no wonder that air pollution is increasing at an alarming rate. The release of other harmful gases all adds to the state that we see today. Although carbon dioxide plays an important role in various other processes like photosynthesis, breathing an excess of the same also causes harmful effects towards one’s health. The various causes of air pollution that releases harmful gases into the atmosphere are caused due to the increasing number of power plants and manufacturing units or industries that mostly have activities related to the burning of fuels. Besides, as mentioned earlier, most automobiles, marine vessels, activities that involve the burning of wood, fumes that are released from aerosol sprays, military activities that involve the use of nuclear weapons, all are the numerous causes of air pollution. Carbon monoxide is another such gas which, although was present in the atmosphere earlier, is now considered to be a major pollutant. An excess of the same has a harmful effect on our system. There are many reasons why carbon monoxide can be released into the atmosphere as a result of human activities. This is also produced due to any fuel burning appliance and appliances such as gas water heaters, fireplaces, woodstoves, gas stoves, gas dryers, yard equipments as well as automobiles, which add to the increased proportion of this gas into the atmosphere. Sulfur dioxide is yet another harmful pollutant that causes air pollution. Sulfur dioxide is emitted largely to the excessive burning of fossil fuels, petroleum refineries, chemical and coal burning power plants etc. Nitrogen dioxide when combined with sulfur dioxide can even cause a harmful reaction in the atmosphere that can cause acid rain. Nitrogen dioxide is one more gas that is emitted into the atmosphere as a result of various human activities. An excess of nitrogen dioxide mainly happens due to most power plants seen in major cities, the burning of fuels due to various motor vehicles and other such sources, whether industrial or commercial that cause the increase in the levels of nitrogen dioxide. These and a number of other hazardous air pollutants are emitted with the various numbers of activities that we carry out during the day which are the main causes of air pollution. How you can help to prevent Air Pollution: * Carpool- This will help to reduce the number of vehicles on the already congested roads. * Always keep your car tuned properly so that it remains in a good condition. * Save energy- Try to use minimum amounts of natural gas and even electricity. Whenever possible, avoid the use of air conditioner and use a fan instead. * Always buy recycled products. * Reuse things such as paper and plastic bags, paper etc. This will contribute a lot towards reducing the effects of air pollution and global warming. * Avoid the use of firecrackers. You don’t really need it to express your feeling of happiness. * Go in for water-based paints instead of varnishes. * If you really cannot avoid using your car, plan your work systematically to reduce air pollution. The causes of air pollution can be many to name if one really scrutinizes this subject closely. With a little effort from our side, we can help to reduce the harmful effects of air pollution so that we can breathe in a clean and healthy environment. | Causes continue 10 Causes of Air Pollution By Nicky LaMarco, eHow Contributor 1. * Air pollution is caused by a wide variety of things. The earth is great at cleaning the air on its own. However, air pollution has grown so much, the earth can no longer clean all of it. This is starting to have adverse effects on the environment such as causing acid rain, smog and a wide variety of health problems. 2. Combustion Engine Exhaust * Cars, trucks, jet airplanes and other combustion engine vehicles cause air pollution. The exhaust from these contains carbon monoxide, nitrous oxide and gaseous oxide. This type of air pollution creates smog (as seen in Los Angeles) which causes respiratory health problems and holes in the ozone layer, which increases the exposure to the suns harmful rays. Factories * Factories, office buildings, homes and power-generating stations burn fossil fuels, which cause air pollution. The burning of oil and coal (fossil fuels) also contributes to smog. This air pollution destroys plants, damages buildings and creates oxidation on iron. Petroleum * Petroleum refineries release hydrocarbons and various particulates that pollute the air. Power Lines * Some power lines are not insulated and are high voltage. This creates air pollution. Pesticides * Pesticides used to kill indoor and outdoor pests, insecticides used to kill insects and herbicides use to kill weeds all cause air pollution. Radioactive Fallout * Radioactive fallout causes air pollution from the nuclear energy dispersed, which is a dust. Fertilizer Dust * Dust from fertilizers used to help plants grow causes air pollution. Indoor Air Pollution * Sick building syndrome (SBS) is the term used when there is indoor air pollution. This happens when there is not enough ventilation to disburse the toxic fumes from new carpet, paint and/or cleaning chemicals that are used indoors. Mold can also cause SBS. Mining Operations * Mining causes air pollution by releasing a variety of particles. Mills and Plants * Mills and plants, include paper mills, chemical plants, iron mills, steel mills, cement plants and asphalt plants, release emissions into the air causing air pollution. * Diabetes Typestalabidiabetescentre. org Understanding the types of Diabetes easily

Man Ray essays

Man Ray essays The date was August 27, 1890 in Philadelphia, Pennsylvania. On this day two Russian-Jewish immigrants, Melach and her husband had a child. His name was Emmanuel Radnitsky. He was teased in his youth about his name and later on became Man Ray. The family eventually moved to Brooklyn. As a child he enjoyed sketching, inventing, repairing, and building. He went to various schools in New York after refusing a scholarship to study architecture. Ray became a commercial artist and draftsman and had his first exhibit at 25. He spent some time in New Jersey working as an advertising draftsman. The artists who inspired him were Alfred Stieglitz and Robert Henri. In 1913, he was exposed to Cubism and began to use some of these elements in his work. In 1914, Man Ray married the Belgian poet, Adon Lacroix and later met Marcel Duchamp After Meeting Duchamp, he bought his first camera. They both became very good friends who influenced each other. In 1921, Man Ray chose to move to Paris after being encouraged to do so by Duchamp. He and his wife also separated at this time. This is where he spent the rest of his life although he did live in Hollywood for ten years during WWII. He drew many portraits when first moving to France. He lived in a room on the top floor that belonged to a woman named Yvonne Chastel. For six years after the separation of his wife a performer named Kiki was his lover, model, and muse but later remarried to a dancer named Juliet Brown. The couple married after the war when Ray moved back to France. Man Ray was known for experimenting with everything in artwork. He accumulated many famous friends such as Georges Braque, Virginia Woolf, Pablo Picasso, Max Ernst, James Joyce, Ernest Hemmingway, Salvador Dali and the list goes on. In Paris, he joined the surrealists and the Dadas. H e participated in the first international Dada show held in Paris. He was a huge influence to French contemporary art. ...

A Comparative Analysis Of Robert Brownings Poem My Last Duchess And W. H. Audens Musee Des Beaux Arts

A Comparative Analysis Of Robert Browning's Poem My Last Duchess And W. H. Auden's Musee Des Beaux Arts World Without Love The Poems My Last Duchess by Robert Browning and Musee des Beaux Arts by W.H. Auden describes how people dont care about each other and that world is cruel. In My Last Duchess the guy is talking the messenger from the duchess about how he killed his wife and was happy about it, whereas in Musee des Beaux Arts the kid is dying in water but his father or not even the people in the ship care about him, they just let him drown in the water and lastly the poem The Sick Rose by William Blake has perfect metaphor reflecting the behavior and feeling of a human being by comparing love to an invisible worm, which destroys people lives. This three poem reflects people just dont care about each other and people have lost the meaning of love. In My Last Duchess the guy is describing to his how he killed his ex-wife and that he was happy about it. He liked a girl and girl was beautiful and young. She liked to flirt around and liked everything in this world. She liked all men and women. She smiles at everyone and like everyone around her. She smiled at the guy too but he is not happy about it because he thinks that she is his woman and she should not look at anyone else except him. Even the guy said to the messenger that, Willt Please you sit and look at her? (Browning 550), which shows she was beautiful and ones eyes would just stare at her for a long time. He also said, Her mantle laps Over my Ladys wrist too much, or Paint Must never hope to reproduce the faint Half-flush that dies along her throat which shows she was courteous, disciplined and beautiful. She had a good heart, which loved everyone and made everyone glad but the author did not like the fact she considers everyone same as him and that she does not pay more attention to him than others. The author also gave her a gift but she considered all the gifts as the same and did not differentiate between a bad and a good gift. In other she did not care about authors feeling and the love that author had for her. The author says, Just this Or that in you disgusts me; here you miss, Or there you exceed the mark (Browning 550) which represents that she treats everyone equal and did not give more importance to author. She considers author as one of nine hundred men that she likes. And after a while she passed the author without a smile, and that offended author because he really liked her and she did not cared about him. The guy was angry with the lady and he commanded his men to kill her to show his power over the lady. The guy says, I gave commands; Then all the smiles stopped together. (Browning 550) this shows that the author proved his power over the lady by killing her. The guy wants her command over the lady so he killed her and now he is regretting for his deeds. And now he asks the lady in the picture to come back to him. He says, Willt please your rise?(Browning 550) this shows the guy cares from her now, after she is dead. This whole scenario reflects that people dont care about each other. The duchess loved everyone but the guy wanted her but did not achieve her so he killed her. This is a selfish and cruel world we live in. People just dont understand the feeling and the type of relationship that the other person is trying to follow. On the other hand the poem Musee des Beaux Arts shows that people around the world dont care about each other even if the person is dying. The kids father made him a like wings out wax so he could fly but he warned him by saying not to fly near sun or near water, but the kid flew near the ocean water and the wax melted and the kid fell into the ocean and was drowning. Although the kid was drowning nobody was even trying to help him save. His father was busy ploughing the field he did not care either. The sheep were grazing; the dog was scratching himself on a tree; the sailor was sailing his ship he did not want himself to get wet and did not want water on his expensive ship. Everyone around there was selfish and nobody cared about the kids drowning. The author says, and, the delicate ship that must have seen Something amazing, a boy falling out off the sky, Had somewhere to go to and sailed calmly on. (Auden 592) this shows nobody cares about the boy in the water. The author also says, Quite leisurely from the disaster; the ploughman may Have heard the splash, the forsaken cry, But for him it was not an important failure. (Auden 592) this reflect the ploughman did care about the boy just because it was not important to him; it was not a great failure or loss to the ploughman. Nobody understands the meaning of humanity or mankind towards his or her fellow beings. This poem reflects that people love and talk to each other only for their own interest and not for being generous or helpful. The most amazing thing about this poem is people are following their daily routine and a boy is drowning in the ocean and nobody cares about it. This is utmost disturbing situation. People have lost the meaning of humanity and mankind. The people in the whole scenario as described by Auden reflects that people are just dully walking away doing their daily business and they assume that nothing is happening around them as if it is just a normal day and its normal for a kid to drown in water. This is the most dreadful scene. And lastly the poem The Sick Rose by William Blake describes people have lost the meaning of love making them selfish and cold-hearted people. Blake says, And his dark secret love Does thy life destroy(Blake, 539), which show love is an evil thing and could destroy ones life. He also says, O, Rose, thou art sick! The invisible worm That flies in the night (Blake, 539), which reflects that people have lost he meaning of love and have become cold hearted. Love is compared to a sick rose and our love for others have become sick and weak. And in terms of feeling, we absolutely have no love and even if we do, it is for some selfish purpose thats why Blake calls love a sick rose. Love is like an evil spirit that in a howling storm destroying everything that comes in its way. Thus Blake reflects through this poem that everyone in the world is cold-hearted and nobody cares about each other. According to me, all of these three poems reflect as to how people have become selfish and cold hearted for their own interests. In My Last Duchess the guy is crazy and kills the duchess just prove his power but fails to reflect care, compassion and love for human being; also in Musee des Beaux Arts the kids father, the sailor and even the people around him do not care about he kids drowning. Everyone is doing their work as if nothing is happening there and lastly The Sick Rose which reflects how love has lost its meaning and people have destroyed their lives without love and compassion. Thus according to me all the people in the world are selfish and dont care about other peoples feeling and dont have affection toward them