Comparizon and Contrast Essay

Comparizon and Contrast Essay Comparizon and Contrast Essay Stress Kind of Stress 2/15/2013 Alexis D. Sanchez EAP1540 - 724594 Renee Zelden Stress At this time the most common health disease in the modern world is stress special in college student. I think they have compact schedules, so every day more students suffer stress. Stress has been classified in to three types academic, financial, and personal stress. One type of stress is academic, this is relevant whit work and study at the same time, imply a big concentration in your daily schedule. Because classes are the principal focus , but you don't forgot the job. Lab hours is the other important assignments and study for the test, otherwise how to skip lever to save money and time. Academic stress may cause the students to get bad grades and fail their courses. In addition to academic stress, the students often feel financial pressure. First of all, it is very important for any single student that the government cover a financial aid, the same time you can pay the class, buy bocks ,other financial stress are relevant whit pay bills ,insurance ,and gasoline. In consequence, it make you have less control of your duties and drive you to additions. Along whit academic and financial worries, students face personal pressures. For example, getting divorced is one of the most common causes of family conflicts. Facing family conflicts can make students to get depressed. Also caring for children is the most

Many Types of Drop-In Fuels

Many Types of Drop-In Fuels These days, it’s hard to find an organic material that isn’t being positioned as the next great alternative energy source. Rising to the top of the list are biofuels known as so-called â€Å"drop in† fuels – those renewable sources that can be used without major investment in infrastructure in the U.S. where storage and distribution has long catered to petroleum. That current investment in infrastructure isn’t small potatoes. There is about $7 billion in pipeline expenditures alone each and every year. Defining Drop-in Fuels What defines a drop-in fuel? The alternative fuels industry itself isn’t exactly clear, with some defining it broadly to mean any renewable fuel making use of at least some of the costly existing petroleum infrastructure. Others have taken a more narrowed approach. One of the most popular definitions is that drop-in fuels are those renewable fuels which can be blended with petroleum products, such as gasoline, and utilized in the current infrastructure of pumps, pipelines and other existing equipment.    Under such a definition, a biofuel would require some percentage of gasoline blender , derived from unique gasoline stocks, to form the fuel’s base. Examples of drop-in fuels defined in this way include the terpenes, butanol and isoprene, among other. Often, the technology is applied to diesel fuel, forming a biodiesel, rather than to gasoline. There are even some next-generation biofuels proponents who are developing mixtures of chemicals to form a biofuel without the gasoline or diesel base. Algae Most Common Drop-in Fuel With well over 50 companies investing in the development of algae as a biofuel, the little green plant reigns supreme among drop-in fuels. Yet, despite this general interest, most biofuels experts agree that at least another decade of research and technological breakthroughs will be necessary before this drop-in fuel is deemed commercially viable. That’s a long- and costly- trail ahead. As with most drop-in fuels, the challenges come in moving the technology from the lab to full-scale commercial production. An additional challenge with algae specifically has been the wide variance among algae and the extensive processing necessary. Butanol Also Sees Growth But algae isn’t the only show in town. Last year, a leading biobutanol company, Gevo, announced plans to acquire ethanol facilities in the Midwest and convert them to commercial production of the drop-in fuel isobutanol, also known as isobutyl alcohol.    The move was seen by industry players as a step forward in the development of butanol as an alternative drop-in fuel, with the company hoping to begin isobutanol production by 2012. Although able to make use of existing infrastructure, unlike algae, there is some concern over potential safety threats. Vapors can travel long distances and collect in low-lying areas to form an explosion hazard. However, its proponents are quick to point out the biofuel’s many fuel and chemical applications make it an attractive venture. Big player DuPont has also tested the waters of biobutanol as a drop-in fuel and plans to likewise rely on existing under-utilized ethanol capacity and conventional feedstocks as it gets its operations off the ground. The investment to retrofit existing ethanol facilities is more economical than building new structures and require only minor changes to the fermentation and distillation processes. Broadening Portfolios DuPont says it plans to follow a multi-step approach to drop-in fuel development, first focusing on n-butyl alcohol and conventional feedstocks before moving on to other drop-in fuels like isobutanol as well as non-feed crops, such as cellulosic feedstocks.    Yet another company, ButylFuel, LLC, has gone on record as having said it has now developed fermentation-derived biobutanol at a cost that is competitive with petroleum products. Its drop-in fuel can be blended at a variety of percentages with gasoline or diesel fuels. How competitive? The company claims it can produce its drop-in fuel from corn for about $1.20 per gallon. Like algae players who are benefiting not only from algae as a drop-in fuel, but from the many byproducts as well, research and development in other drop-in fuels sectors are looking at diverse portfolios of products, causing some to characterize this next generation of alternative fuels as a means to produce hydrocarbon blend stock that can have a multitude of applications.

Challenges of ERP adoptions and critical success factors Essay

Challenges of ERP adoptions and critical success factors - Essay Example ber of factors such as enhancing the ability so as to compete on the global platform, excessive pressure from increased competition so as to become the low cost producer and increasing expectations in terms of revenue growth. In today’s scenario of implementation as well as management of enterprise resource planning the most important aspect is that of critical success factors or CSF. There lies a strong correlation between the challenges or issues that are witnessed with the adoption of ERP technology with these critical success factors. The critical success factors can be stated as exemplars that enable the process improvement boundaries to be extended and even can be considered to be valuable if it is taken into consideration in each of the stages of the overall implementation process. The adoption of ERP into the system is dependent upon various critical success factors that are grouped into two major parts that are strategic and tactical factor. The support from the top management is very essential when the issue about the implementation of ERP system is taken into account. In any organization the rules and regulation are set forth by the top management of the system and the software adoption as well as execution is majorly dependent on the extended support that is provided by the top management. The critical success factors that are strategic by nature is related to the mission of the project, support given by the top management and in case of project scheduling it can be associated with outlining various actio n steps for individual in order to implement the project (Ziemba & Obłąk, 2013, pp. 4-9). The tactical issues are needed to be considered when the next phase of project implementation takes place that is related to communicating with different users, adopting the necessary technology so as to support the system and hiring of business and technical professionals who would carry forward the implementation process. The critical success factors of ERP

Drawing from the course materials, discuss one challenge and one Essay

Drawing from the course materials, discuss one challenge and one opportunity presented to a person who takes on the role of frontline manager in a health or social care service - Essay Example The essay also sheds light on two important aspects of a manager’s role: one challenge and one opportunity that he is presented with and the ways in which he can handle them. The role of a manager is easier said than done. That’s because he has to shoulder many responsibilities. His actions are under constant vigilance by his peers, subordinates and superiors. Anything good that a manager may try to implement can have possible negative as well as positive effects on the entire organization. Thus well analyzed action plan is a must. Becoming a manager requires constant efforts and determination. It also requires leadership qualities such as patience, ability to lead and guide, perseverance, ability to interact well with everyone, etc. A person achieves this through hard work. Along with the respect that it brings, the managerial responsibilities seep the manager of all his energy and demand careful work at every stage. At a health care service unit, a manager comes to deal with a variety of people such as the care takers or the doctors, the accounting department, the staff, the patients or the consumers or the victims of health problems, managers from other branches of the health care unit and so on. While discussing the manager’s role let us analyze for him, Managerial activity is a process of continuous change (Activity 3.2, p.33). One has to understand the current situation and implement new policies accordingly. No matter whatever are your previous experiences, being a manager is every time a new lesson. The first thing that comes to our mind about a manager is the amount of power that he is entrusted with! Indeed this power can work wonders if handled with opportune execution. He needs to be flexible enough to shape circumstances and adapt to demands of employed people and consumers. With all his powers he has the authority to regularize and implement changes such as discipline, better dress codes,

Human factors in technology Essay Example for Free

Human factors in technology Essay Man is the only being who has utilized technology, to the point that it also caused technology to change rapidly through time. Technology has been one of the most influential concepts in the lives of every human being throughout history. It was so influential that it had become one of the major deciding factors in the direction of history. Technological innovations had evolved from the simple to the very complex. From the simple stone cutting tools that prehistoric man had, to the contemporary blades that virtually do not need any resharpening at all. There had also been evolution from the very crude computing technique such as the finger counting, to the very complex supercomputers. In terms of transportation, from the very simple mode of walking and running, man had innovated transportation technology by inventing and innovating cars, planes, ships, etc. Technology had not only affected transportation and computing, but also the social and psychological scene as well. Companies whose general trade is information and technology are the ones whose organizational structure is very much affected by the technological changes. Most of the companies are either computer manufacturers or technological research companies. Apple Inc. , formerly known as Apple Computer, Inc. is an American-based multinational corporation which has its focus on technical manufacturing and designing of electronics and software programs for variations of consumers all around the world. It headquarters can be found in Cupertino, California (Apple, Inc. , 2007; History of Apple, 2007; Mesa, 1998; Apple. com, 2007). This company basically focuses on the development and support of several electronic gadgets for the market. This same company currently has its eyes focused on the innovation of already existing technologies, as well as the formation of a new breed of technology for the market. Some of its world-famous creations are the iPod, iPhone and the AppleTV. Aside from these electronic equipment and gadgets, the Apple, Inc. is also into the creation of new and better software programs. In the past, it had focused on creating and developing operating systems (OS), and specific application programs. Today, Apple, Inc. is now setting the path before it releases its newest operating system, the Mac OS X â€Å"Leopard†. Apple is very much into expanding its frontiers by exploring new ways of marketing and product presentation (Apple, Inc. , 2007; History of Apple, 2007; Mesa, 1998; Apple. com, 2007). It is now into the trend of having an online store where its products, whether hardware or software, can be bought by just a click of the mouse. The company is well-known for their very user-friendly hardware as well as software. Their iPod series, as well as their iPhone, Macintosh series of personal computers and peripherals, iLife software suite, and the Mac OS are just some of their best-known software and hardware products. Also, the company is a major supplier of prosumer software products for specialized purposes such as the audio and film industry (Apple, Inc. , 2007; History of Apple, 2007; Mesa, 1998; Apple. com, 2007). The mentioned things about Apple, Inc. , set up a background for the contemporary company. Technology has an implicit message, and that is to put everything into a very objective perspective, where everything could and should not be subject to an individual’s / group’s personal judgments or beliefs. By virtue of technology, man was able to do things such as measurement and judgment without having biases. With the use of technology, organizations can track their development without having doubts if the people who assessed them were biased about the evaluation process. But this strength is also its weak point. Being very objective would mean that the assessment would be very strict, and it would be guided by certain sets of quantified measurements such as numbers and / or a set of quantified codes. These standards for judgment and assessment can be used to evaluate employees’ activities, company sales and company economic standing. Having these strict standards would mean an easier, more efficient and more economic way of assessing the company. With these, companies such as the Apple could rely on machines about their company’s survival. Machines, which are products of modern technology, could be programmed to assess particular aspects of the company and suggest possible options about how to make the company even more productive. This may sound farfetched, but it could be a good way of looking at the possibility of how machines could help organizations in optimizing their parts. Business oriented companies such as the Apple is currently facing the possibilities of having less human members, and more help from the technology they are developing. These companies, with the help of modern technology, could be able to assess their employees using certain standards that can be input to a computer for further assessment. This way, there would be less processing time, less need for human HRD team members, less specialists in the field of assessing people, more possible members for the pool of computer and technology specialists (which could also mean more capital would be invested on the specialty of the company), and less expenses on the part of the company. Looking at the advantages posed by this method, it would be good to conclude that this could boost company income, thus uplift the lives of its employees in an economic and political sense. On the other hand, this method could also pose a very detrimental effect to the company as a whole, both in the macro and micro perspectives. One disadvantage of this method would be that without the subjective judgments of humans on human resources, it would be possible to miss important and potentially able applicants. Also, it would be possible that the programmed machines would not be able to look the implicit factors such as family background and the personality types of the applicants. Another is the fact that hardcore statistics, which programmed machines use, does not claim that the results are products of the interplay of all possible factors, instead it can only present results with the extraneous factors (which may possibly matter) omitted. References: Apple. com (2007).Retrieved August 9, 2007 from http://www. asia. apple. com/. Apple, Inc. (2007). Wikipedia: The Fee Encyclopedia. Retrieved August 9, 2007 from http://en. wikipedia. org/wiki/Apple_Computer. History of Apple (2007). ). Wikipedia: The Fee Encyclopedia. Retrieved August 9, 2007 from http://en. wikipedia. org/wiki/History_of_Apple_Inc.. Mesa, A. (2007). Apple History Timeline. The Apple Museum. Retrieved August 9, 2007 from http://applemuseum. bott. org/sections/history. html.

Truth and Teiresias in Sophocles Oedipus Rex and Al-Hakims King Oedip

Truth and Teiresias in Sophocles' Oedipus Rex and Al-Hakim's King Oedipus      Ã‚   In both "Oedipus Rex" and "King Oedipus," Teiresias is defined by his relationship to the truth: in Sophocles' play as a courier, in Tawfiq Al-Hakim's as a manufacturer. Sophocles Teiresias is a conduit, a vessel through which the truth of a future created by the gods can be revealed, while the modern Teiresias is actively engaged in creating, shaping, the truth out of a supposed spiritual vacuum. These differing roles place both characters at a certain distance from their actions and sense of responsibility. Based, to a great extent, on this proximity, each Teiresias develops a radically different concept of the truth. Though the characters themselves are in many ways philosophical opposites, the function Teiresias serves in each play is not at all dissimilar. A sense of the truth as a source of destruction as well as possible redemption is ultimately reinforced by the presence of Teiresias in each play.   Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚   Oedipus accuses Teiresias in each play of withholding critical information. Both characters make similar decisions to attempt to withdraw themselves from the situation. Their motives, however, are distinctly different. Understanding these motives points paradoxically toward the individual fundamental differences between characters as well as their eventual thematic similarities. Sophocles' Teiresias is a reluctant prophet. He is in awe of the truth because he is powerless to change it. Teiresias does not own the truth; it was never his to possess. Instead, he exists as a passive agent, an intermediary, between present and future, gods and humanity. Because the truth is brutal, cruel, and possibly sometimes excessive and unjust even... ...refers, instead to vision on a more figurative level. Sophocles speaks to this kind of "blindness" when Teiresias states, "You whose vision is straight shall be blind" (ln 419, p.127). Achieving this level of insight may well be an impossible task. In our attempt we may always hear the laughter that plagues Al-Hakim's Teiresias, mocking laughter that has dropped from heaven "since the beginning creation" (124). Understanding the relationship of Teiresias in each play to the truth (its conveyance, its creation), may help us to determine our own proximity to this same elusive and dangerous goal, the truth.   Ã‚      Works Cited Al-Hakim, Tawfiq. Plays, Prefaces and Postscripts of Tawfiq Al-Hakim. Trans. W.M. Hutchins. Washington, D.C.: Three Continents Press, 1981. Sophocles. "Oedipus Rex." Rpt. in Ten Greek Plays. Ed. L.R. Lind, Boston: Houghton Mifflin, 1957.

Nano Chemistry Essay

1.1 Definition Nanochemistry is concerned with generating and altering chemical systems, which develop special and often new effects as a result of the laws of the nanoworld. The bases for these are chemically active nanometric units such as supramolecules or nanocrystals. Nanochemistry looks set to make a great deal of progress for a large number of industry sectors. Nanotechnology exists in the realm where many scientific disciplines meet. Achievements in physics are getting progressively smaller – from valves to electronics, down to microelectronics and quantum computing. It mirrors the downsizing in focus in the biological sciences, from cells to genomics. Conversely, achievements in chemistry have been converging into the nanometre range from below – from atoms and molecules to supramolecular chemistry. Nanochemisty focuses on the unique properties of materials in the 1–100 nm scale. The physical, chemical, electrical, optical and magnetic properties of these materialsare all significantly different from both the properties of the individual building blocks (individual atoms or molecules), and also from the bulk materials.Nanochemistry is a truly multidisciplinary field, forming a bridge between nanotechnology and biotechnology, spanning the physical and life sciences. The Nanochemistry Research Institute (NRI) at Curtin carries out world-class research to provide innovative solutions to – energy and resources – materials and manufacturing – electronics – agricultural – environmental management, and – health and medical industries Nanochemistry applications in the materials, resources and energy sectors range from the design of crystalline catalysts and the control of crystal size, morphology, phase and purity, to the design and use of additives to control crystallization and inhibit scale formation. In the biological field, control of chemistry at the supramolecular level can lead to the development of a wide variety of new and improved biomaterials, such as artificial bones and tissues, as well as new pharmaceuticals and improved methods of drug delivery.1 ENGINEERING, SCIENCE ‘‘We are like dwarfs on the shoulders of giants, so that we can see more than they.’’ Bernard of Chartres, 12th century with nanoscience being the discipline concerned with making, manipulating and imaging materials having at least one spatial dimension in the size range 1–1000 nm and nanotechnology being a device or machine, product or process, based upon individual or multiple integrated nanoscale components, then what is nanochemistry? In its broadest terms, the de.ning feature of nanochemistry is the utilization of synthetic chemistry to make nanoscale building blocks of different size and shape, composition and surface structure, charge and functionality. These building blocks may be useful in their own right. Or in a self-assembly construction process, spontaneous, directed by templates or guided by chemically or lithographically de.ned surface patterns, they may form architectures that perform an intelligent function and portend a particular use.2 1.2 Objective of nanochemistry – Creating nanoparticles – Allowing properties of nanosystems to evolve, manipulating and controlling them – Encapsulating and transporting materials (e.g. deodorant with nanodroplets)4 1.3 Nanochemistry used in: – – Cosmetics, e.g. sunscreen, toothpaste, skincare products – Sanitary ware – Built-in ovens and baking trays – Gas-tight packaging – Screens, photographic films – Separating technology for waste water treatment and food production – Catalysers for chemical reactions – Exhaust purification5 It is also used in formation of :- – Commercialization of nanochemicals – Nanooxides of precious, ferromagnetic, rare metals (Ti, Zr etc.) Nanopolymers and membranes – Nanomaterials (cement, fertilizers) – Nanopowders in chemical applications – Nanogreen chemistry – Nano energy applications – Environmental applications of nanotechnology When thinking about self-assembly of a targeted structure from the spontaneous organization of building blocks with dimensions that are beyond the sub-nanometer scale of most molecules or macromolecules, there are five prominent principles that need to be taken into consideration. These are: (i) building blocks, scale, shape, surface structure, (ii) attractive and repulsive interactions between building blocks, equilibrium separation, (iii) reversible association–dissociation and/or adaptable motion of building blocks in assembly, lowest energy structure, (iv) building block interactions with solvents, interfaces, templates, (v) building-blocks dynamics, mass transport and agitation. A challenge for perfecting structures made by this kind of self-assembly chemistry is to .nd ways of synthesizing (bottom-up) or fabricating (top-down) building blocks not only with the right composition but also having the same size and shape. No matter which way building blocks are made they are never truly monodisperse, nless they happen to be single atoms or molecules. There always exists a degree of polydispersity in their size and shape, which is manifest in the achievable degree of structural perfection of the assembly and the nature and population of defects in the assembled system. Equally demanding is to make building blocks with a particular surface structure, charge and functionality. Surface properties will control the interactions between building blocks as well as with their environment, which ultimately determines the geometry and distances at which building blocks come to equilibrium in a self-assembled system. Relative motion between building blocks facilitates collisions between them, whilst energetically allowed aggregation deaggregation processes and corrective movements of the self-assembled structure will allow it to attain the most stable form. 6 Providing the building blocks are not too strongly bound in the assembly it will be able to adjust to an orderly structure. If on the other hand the building blocks in the assembly are too strongly interacting, they will be unable to adjust their relative positions within the assembly and a less 1 ordered structure will result. Dynamic effects involving building blocks and assemblies can occur in the liquid phase, at an air/liquid or liquid/liquid interface, on the surface of a substrate or within a template co-assembly. As this text describes, building blocks can be made out of most known organic, inorganic, polymeric, and hybrid materials. Creative ways of making spheres and cubes, sheets and discs, wires and tubes, rings and spirals, with nm to cm dimensions, abound in the materials self-assembly literature. They provide the basic construction modules for materials self-assembly over all scales, a new way of synthesizing electronic, optical, photonic, magnetic materials with hierarchical structures and complex form, which is the central theme running throughout this chapter. A .owchart describing these main ideas is shown in igure 1. Nano-, a pre.x denoting a factor, its origin in the Greek nanos, meaning dwarf. The term is often associated with the time interval of a nanosecond, a billionth of a second, and the length scale of a nanometer, a billionth of a meter or 10 A  ° . In its broadest terms, nanoscience and nanotechnology congers up visions of making, imaging, manipulating and utilizing things really small. Feynman’s prescient nano world ‘‘on the head of a pin’’ inspires scientists and technologists to venture into this uncharted nano-terrain to do something big with something small.7 1.4 Large and Small Nanomaterials It was not so long ago in the world of molecules and materials that 1 nm (1 nm  ¼ 10 A  ° ) was considered large in chemistry while 1 m m (1 m m  ¼ 1000 nm  ¼ 10,000 A  ° ) was considered small in engineering physics. Matter residing in the ‘‘fuzzy interface’’ between these large and small extremes of length scales emerged as the science of nanoscale materials and has grown into one of the most exciting and vibrant fields of endeavor, showing all the signs of having a revolutionary impact on materials as we know them today. In our time, ‘‘nano’’ has left the science reservation and entered the industrial technology consciousness and public and political perception. Indeed, bulk materials can be remodeled through bottom-up synthetic chemistry and top-down engineering physics strategies as nanomaterials in two main ways, the first by reducing one or more of their physical dimensions to the nanoscale and the second by providing them with nanoscale porosity. When talking about finely divided and porous forms of nanostructured matter, it is found that ‘‘nanomaterials characteristically exhibits physical and chemical properties different from the bulk as a consequence of having at least one spatial dimension in the size range of 1–1000 nm’’.

American vs. Chinese Culture

Psychological anthropology is the study of individuals and their personalities and identities, within particular cultural contexts (Miller, 2007). Although American and Chinese people are raised in different cultures, their cultures are somewhat similar. Even though individuals are raised thousands of miles apart, is it possible to possess some of the same personality traits? In the American culture, baby showers are held to celebrate the impending birth of a baby. Family and friends bring many necessities needed for the new baby, such as, clothes, money, bottles, stroller, car seat, and or diapers. Once the baby is born it is the American culture to separate babies by gender. It is customary for boys to be dressed in blue and girls to be dressed in pink. As they grow, boys are encouraged to play with trucks, action figures and guns to promote strength and power. Whereas, girls are encouraged to play with dolls, cook with toy stoves, and play house to promote nurturing. As the child grows into adolescence, this is reinforced in the chores delegated to them. Boys are expected to cut the grass, take out the trash, and help out with any other â€Å"handyman† jobs. Girls are expected to wash dishes, do the laundry, sweep and mop floors. Hence, the stereotyping begins. This stereotyping is evident in adulthood. Men are labeled as providers, protectors, and head of the household. Men are expected to work to support their families. Men are often pressured to assert their masculinity and strength within there jobs and at home. Today, men are beginning to take on more responsibilities within the home. Women are labeled as mothers, housekeepers, and nursemaids, to name a few. Many years ago, women were not respected in the workforce. Their job selection was very slim, mainly secretaries. However, during World War II women took the place of men in the workforce showing they could perform the jobs just as well as the men. Today, women are highly accepted in the workforce and hold high powered positions within companies and even own their own businesses. Once men and women reach their senior years, they have achieved their social status. They are afforded the opportunity to retire from the workforce. In doing so, they are able to travel or just enjoy life at their leisure. They no longer have to pay taxes and receive their social security benefits as their compensation for working. Unlike the American culture where there is no animosity over the gender of babies, Chinese culture is different. Boys are considered treasured, so much so that years ago infant girls were killed. In doing this China has created an imbalance in the male to female ratio. In the Chinese culture, a baby’s birth is not celebrated until the infant is one month old. The family holds a â€Å"red egg and ginger† party. This is the time when the parents introduce their baby to friends and family, who bring gifts for the baby: boys receive â€Å"lucky† money and girls receive expensive jewelry. Parents present each guest with a dyed red egg to symbolize happiness and the renewal of life. Traditionally, gender roles in China are similar to the ones in the United States. The man goes to work, the woman is a housewife. This is changing, especially with the ‘one child policy’ in China. Women are not needed at home as much to take care of children since families are only allowed to have one child. In some cases, a family is allowed to have two children. For example, if the first born is a daughter, they may be permitted to have another child. There is a lot less social distance among Chinese people compared to Americans. It is a collectivist culture – people depend on each other and take care of each other. Chinese people spend a lot less time alone than Americans do. One example of this is the family unit is very close in Chinese culture. It is very common for three or more generations to live together because a lot of people still live with their parents when they have established their own families. Chinese people are more reserved when it comes to physical contact or showing public display of affection, especially in romantic relationships. Chinese people initiate physical contact very gradually compared to Americans. Premarital sex is a lot less common in China than in the United States. Both cultures show traits of openness by allowing individuals to explore their curiosity of the world and show their emotions. They also allow for individuals to be conscientious of their actions, to be self-disciplined, and to be cooperative towards others. Although two cultures are different it is possible for individuals to share the same traits. ? REFERENCES Chinese Culture. (n. d. ). Retrieved February 3, 2010, from English in Taiwan. com: http://www. englishintaiwan. com/foreigners/chinese_culture. php Gender: Gender Roles and Stereotypes. (2010). Retrieved February 3, 2010, from Marriage and Family Encyclopedia: http://family. jrank. org/pages/686/Gender-Gender-Roles- Stereotypes. tml Miller, B. D. (2007). Cultural Anthropology. Boston: Allyn & Bacon. Olsen, A. (2009, April 10). China's Population Laws Threaten Baby Girls, Favor Boys. Retrieved February 3, 2010, from The Huffington Post: http://www. huffingtonpost. com/2009/04/10/chinas-population-laws-th_n_185626. html Therese Hesketh, P. , Li Lu, M. , & and Zhu Wei Xing, M. (2005, September 15). The Effect of China's One-Child Family Policy after 25 Years. Retrieved February 4, 2010, from The New England Journal of Medicine: http://content. nejm. org/cgi/content/full/353/11/1171

How to Say Any in Spanish

How to Say Any in Spanish The English word any has no single equivalent in Spanish, and when it is used to mean an uncountable noun or a plural noun, it is usually left out completely.  There are a few cases where you can use the word any to mean some, none or whatever, and in those cases, there is a translation for the word. When Any Can Be Omitted in Translation In many cases, any as an adjective is superfluous in Spanish, adding little independent meaning and can be omitted without much change in how the sentence is understood. Under those circumstances, and especially in questions, the word can usually be left untranslated in the Spanish equivalent.   English Sentence Spanish Translation If you have any additional questions about this product, you can check the label. Si tienes preguntas adicionales sobre este producto, puedes consultar la etiqueta. Are there any books about the National Museum in English?  ¿Hay libros sobre el Museo Nacional en inglà ©s? If we don't make any progress this week, a huge job will be left for us next week. Si no hacemos progresos esta semana, nos quedar una tarea monumental para la semana prà ³xima. Do you want any more carrots?  ¿Quieres ms zanahorias? I don't feel any pain. No siento dolor. Remember, there are times when any can or should be translated. There are a few ways to express the idea of any when it can mean some, none, whichever, or whatever in a sentence. When Any Means None Double negatives are common and acceptable in Spanish. In negative sentences, any can often be translated as ninguno, which varies according to number and gender. Note that ninguno is shortened to ningà ºn when it comes before a singular masculine noun. Like any, ninguno and its variations can function as both adjectives and pronouns. English Sentence Spanish Translation If you don't have any of these documents, you can submit one of the following. Si no tiene ninguno de estos documentos, puede someter uno de los siguientes. I don't see any advantages for the citizens. No veo ningunas ventajas para los ciudadanos. I don't feel any pain. No siento ningà ºn dolor. By using a double negative, in Spanish, it can allow the speaker to be emphatic. As is the case with the example, I dont feel  any  pain. The speaker can simple state,  No siento dolor.  However, when using the double negative and stating,  No siento  ningà ºn  dolor.  The speaker is emphasizing a state of being that is extremely pain free. It is similar to an English speaker saying, I dont feel any pain, not a one. When Any Means Some When any is used in a sentence and it stands in as a pronoun meaning some, it can be expressed in two ways as alguno  or algunos for the singular and plural masculine pronoun and  alguna or algunas  for the singular and plural feminine pronoun. An example of this would be,  I have two dogs. Do you have any? In the second sentence, you can replace the word any with alguno.  Tengo dos perros  ¿Tienes alguno? When Any Means Whatever or Whichever When any is used to mean that a variety of choices will do, such as whatever or whichever in English, you can use cualquiera, which is shortened to cualquier when used as an adjective before a masculine or feminine noun.   English Sentence Spanish Translation I am looking for any Harry Potter book. Busco cualquier libro de Harry Potter. Any mother can distinguish her child from all other children. Cualquier madre puede distinguir a su hijo de todos los dems nià ±os. "Which meal do you want to eat?" Any one. It doesn't matter." Cualquiera. No importa. It is absolutely prohibited to provide syringes or hypodermic needles in any way. Es absolutamente prohibido suministrar de cualquier modo jeringuillas o agujas hipodà ©rmicas.

John Ericsson - Designer of the USS Monitor

John Ericsson - Designer of the USS Monitor John Ericsson invented an early locomotive, the Ericsson hot-air engine, an improved screw propeller, the gun turret, and a deep-sea sounding device. He also designed ships and submarines, most notably the USS Monitor. Early Life of John Ericsson in Sweden John (originally Johan) Ericsson was born on July 31, 1803, in Vrmland, Sweden. His father, Olof Ericsson, was superintendent of a mine and taught John and his brother Nils the skills of mechanics. They received little formal education but showed their talent early. The boys learned to draw maps and finish off mechanical drawings when their father was director of blastings on the  Gà ¶ta Canal  project. They became cadets in the Swedish Navy at ages 11 and 12 and learned from instructors in the Swedish Corps of Mechanical Engineers. Nils went on to be a prominent canal and railway builder in Sweden. By age 14, John was working as a surveyor. He  joined the Swedish Army at age 17 and worked as a surveyor and was noted for his mapmaking skill. He began constructing a heat engine in his spare time, which used the heat and fumes of fire rather than steam. Move to England He decided to seek his fortune in England and moved there in 1826 at the age of 23. The railroad industry was hungry for talent and innovation. He continued to design engines that used airflow to provide more heat, and his locomotive design  Novelty  was barely beaten by the Rocket designed by George and Robert Stephenson in the Rainhill Trials. Other projects in England included the use of screw propellers on ships, a fire engine design, large guns,and a steam condenser that provided fresh water for ships. American Naval Designs of John Ericsson Ericssons work on twin screw propellers attracted the attention Robert F. Stockton, an influential and progressive U.S. Navy officer, who encouraged him to relocate to the United States. They worked together in New York to design a twin screw-propelled warship. The USS Princeton was commissioned in 1843. It was armed with a heavy gun 12-inch gun on a revolving pedestal that Ericsson designed. Stockton worked to get the most credit for these designs and designed and installed a second gun, which exploded and killed eight men, including Secretary of State Abel P. Upshur and Secretary of the Navy Thomas Gilmer. When Stockton shifted the blame to Ericsson and blocked his pay, Ericsson resentfully but successfully moved on to civilian work. Designing the USS Monitor In 1861, the Navy needed an ironclad to match the Confederate USS Merrimack and the Secretary of the Navy convinced Ericsson to submit a design. He presented them with designs for the USS Monitor, an armored ship with guns on a rotating turret. The Merrimack had been rechristened the USS Virginia and the two ironclad ships did battle in 1862 to a stalemate that nonetheless aved the Union fleet. This success made Ericsson hero and many Monitor-type turret ships were built during the rest of the war. After the Civil War, Ericsson continued his work, producing ships for foreign navies and experimenting with submarines, self-propelled torpedoes, and heavy ordnance. He died in New York City on March 8, 1889 and his body was returned to Sweden on the cruiser Baltimore. Three U.S. Navy ships have been named in honor of John Ericsson: the torpedo boat Ericsson (Torpedo Boat # 2), 1897-1912; and the destroyers Ericsson (DD-56), 1915-1934; and Ericsson (DD-440), 1941-1970. Partial List of John Ericssons Patents U.S. #588   for a Screw Propeller patented February 1, 1838.U.S. #1847 for a Mode of Providing Steam Power to Locomotives patented November 5, 1840. Source: Information and photos provided by U.S. Naval Historical Center

Saudi Arabia profile Essay Example | Topics and Well Written Essays - 500 words

Saudi Arabia profile - Essay Example As in the case of many other Middle Eastern countries, majority of the land area are deserts with some rugged mountains in the southwest. Hot and humid climatic conditions prevail in Saudi throughout a year with an exception of only few months. 78.8% literacy is reported in Saudi as per the 2010 statistics. Saudi males are more literate (84.7%) than Saudi females (70.8%). Infant mortality rate is 11.57 deaths/1,000 live births according to the 2010 statistics. Women dominate in life expectancy rates in Saudi with 78 years against 74 years of the males. More than 35% of the Saudi workforce are from foreign countries and service sector is the major revenue source in Saudi (63%) followed by industry (25%) and agriculture (12%). 2010 statistics show that GDP of Saudi is $623 billion and annual growth rate is 3.8%. Per capita of Saudi population is one among the bests in the world with an attractive figure of $24,200. Gold and oil are the major natural resources or revenue sources of Saudi. Before the discovery of oil sources in Middle East, gold mining and fishing were some of the major revenue sources of Saudi. Hydrocarbons, uranium, coal, phosphate, and tungsten are some other natural resources of Saudi Arabia. Surface water sources provide 10% of the Saudi’s drinking needs whereas 84% provides by ground water sources. Desalinated seawater not only used for the drinking needs (5%), but also for generating electric power. Even though the climatic conditions are not so good for agriculture, dates, grains and vegetables are cultivated at some parts of Saudi Arabia. As in the case of majority of the other Middle Eastern countries, export of petroleum products is the major revenue source of Saudi Arabia. Petroleum and petroleum products export of Saudi worth around $253 billion whereas its imports (manufactured goods, transportation equipment, clothing and textiles, processed