LSTD206 Capstone Paper Essay Example | Topics and Well Written Essays - 750 words

LSTD206 Capstone Paper - Essay Example This informs the basis of the establishment of sound client-relations policies, which do not only serve as the basis of informing how a firm relates with its clients, but also as a marketing tool for the firm, since good client experience is a recipe for increased customer base for a firm (Brink & Berndt, 2008). Therefore, this discussion seeks to establish the client-relations policies that a legal firm should establish to enhance its client relationship as well as its marketing, communication, advertising, confidentiality and conflict of interest handling. This discussion is important for a legal firm, since it creates insights into the relevant strategies that such firms should apply to enhance a productive relationship with the clients, and thus be able to maintain a secured client base, in the face of the ever increasing competition. Discussion Client reception is the core of productive client-relations policies formulation, considering that it is the reception that clients get when they first visit a firm that determines their first impression of the firm, and the consequent future interactions with the firm (Silk, 2012). This being the case, it is therefore significant to ensure that the receptionists and the customer relationship officers within a firm follows certain guidelines that enhances a positive and productive relationship with the client, which enable the firm to project a positive image to the clients, and thus attract them for further visits and interactions. Thus, courtesy and helpfulness is the basis of the customer relationship policy, where the receptionists and the customer relationship officers address the clients with respect and integrity, while offering the essential help that a client could require (Knackstedt, 2008). While being courteous, respectful and helpful serves to enable the client feel comfortable within the firm and feel valued and appreciated as a stakeholder to the firm, it plays the vital role of enticing the customer to make repeat visits. Thus, courteousness, helpfulness and respectfulness serves both as a client recognition and appreciation strategies, as well as firm marketing strategies that encourages further business. Confidentiality is paramount in the legal relationship business, considering that the relationship between a client and a legal firm entails the discussion of sensitive personal, business or family matters, which should not be introduced to the public domain (Nollkamper, 2008). Thus, a confidentiality policy is vital within a legal firm, to ensure that the relationship between a client and the firm, and the issues discussed between them remains between the two parties, and can only be disclosed whenever it is necessary, may be in a court of law. Through implementing the confidentiality policy, a firm is able to ensure that the customer feels comfortable while dealing with the firm, through the knowledge that the personal and confidential information shared with the firm will remain as such, without any risk of unnecessary exposure (Silk, 2012). Client communications and legal advice is yet another aspect that requires that a policy guideline is established to safeguard the relationship. The policy applicable under this concept

Joan of Arc Research Paper Example | Topics and Well Written Essays - 2000 words

Joan of Arc - Research Paper Example They again felt that they would be able to hold on to the sovereignty of their nation and have their own king on the throne. Joan of Arc lived her life according to what she felt was the dictate of God. What she did was based on the visions that she had when she was a child living in a village of France. Her rise to power in France was thus meteoric. Her death however, was equally tragic. A gruesome death at the hands of the English Church was hardly what she deserved after the pains that she took for the sake of her motherland, France. Following her death, her memory was recovered and she has now entered into public consciousness through literature and various other sources. This paper shall seek to understand her position as a woman in the fifteenth century and attempt to answer the question as to whether this position affected the different choices that Joan of Arc took. Joan of Arc’s entry into French politics is looked upon with great surprise by many who are familiar wit h the condition that women found themselves during the fifteenth century in France and for that matter, anywhere in the world. This is not a pointer to the immense clout that Joan of Arc wielded at this point, right at the beginning of her career, but to the condition that France found herself in. ... She however, looked at the situation where the Count of Dunois had led France to and sought to reverse it. The siege of Orleans had started to look like a hopeless affair as far as the French were concerned. The siege which had continued for over seven months had started to look ominous from the French point of view. This condition was changed to a large extent with the point where Joan of Arc enters the history of the Hundred Years War. Her journey to meet the Dauphin was the catalyst behind the revival of the French hopes as far as the continuance of their resistance was concerned (Pernoud 1999, 9-11)1. This journey was an uncommon one for any woman to undertake and this was the beginning of her breaking various stereotypes that are often assigned to women. This was a breaking of a barrier of customs that did not have such a precedent. Joan of Arc thus set an example for those who were to follow her, providing them with an example of initiative. In the twenty first century, there a re many women who are lauded for their political initiative and courage. One needs to remember that Joan of Arc’s actions were taken in a conservative society where women were given much less freedom than they are in today’s society. This makes her achievement all the more praiseworthy. Calling her the â€Å"Ideal Androgyne†, Marina Warner talks of Joan’s transvestism2 (1981, 140). Wearing clothes that were traditionally worn by men was something that Joan had to resort to so as to protect herself from sexual advances by male soldiers of both camps. This points to the condition that women had to face in society at the point of time when Joan was active. The importance of this lies in the fact that even a person who was powerful in the larger 1. Pernoud

Atomic model

Atomic model History of the Atomic Model The atomic model is not a concrete, one-hundred percent accurate depiction of the atom or description of what the atom is like. We cant base our model on actual observations of atoms, because they are too small to be seen with our most sensitive instruments. Instead, we must come up with a model of an atom that can account for and explain observations that we can actually see. As new observations are made over time, by scientists Democritus, Dalton, Thomson, Rutherford and Bohr, the model of the atom has evolved over time. Democritus is credited with coming up with the term atom in 400 BC. He wanted to know what would happen if you kept breaking down something into smaller and smaller pieces. Could you keep breaking it down into smaller and smaller pieces? Democritus determined that if you kept breaking down the object, you would get it to a size that could no longer be broken. This was called the indivisible piece by the Greeks. In Greek, â€Å"atomos† meant indivisible. Thus, the indivisible piece became termed â€Å"the atom† for short (CompSoc). In the late 1700s, multiple scientists studied reactions and conducted controlled experiments, leading to new ideas that set the foundation for the development of more accurate atomic theories and models In the early 1800s, John Dalton, an observer of weather and discoverer verify of the Law of Conservation of Mass among other things, was one of those scientists who performed controlled experiments and came up with a different atomic theory. He proved that matter cannot be created or destroyed by ordinary chemical or physical reactions and devised a conjecture in an attempt to explain how and why elements would combine with one another in fixed ratios and sometimes also in multiples of those ratios. He noted that oxygen and carbon combined to make two compounds. He discovered that for the same amount of carbon, one had exactly twice as much oxygen as the other (De Leon, N). This led him to propose the Law of Multiple Proportions, which states that when two or more elements form more than one compound, the ratio of the weights of one element that combine with a given weight of another element in the different compounds is a ratio of small whole numbers. For example, C and O can form b oth CO and CO2. The Law of Multiple Proportions can be regarded as an extension of the early Law of Definite Proportions, which states that the proportions by weight of the elements present in any pure compound are always the same. For example, NaCl will always be 39.3 percent Sodium and 60.! Percent Chlorine. His atomic theory, stated that elements consisted of tiny particles called atoms. He said that the reason an element is pure is because all atoms of an element were identical and that in particular they had the same mass. He also said that the reason elements differed from one another was that atoms of each element were different from one another; in particular, they had different masses (De Leon, N). This finding, however, was later proved wrong by further studies that demonstrated how atoms of the same element could differ: atoms could be either isotopes or ions. He also said that compounds consisted of atoms of different elements combined together in whole number ratios. Compounds are pure substances because the atoms of different elements are bonded to one another somehow, perhaps by hooks, and are not easily separated from one another. In fact, he stated that atoms cannot be subdivided, created or destroyed. Later experiments however, also proved this finding wrong in that nucle ar reactions can split an atom. Compounds have constant composition because they contain a fixed ratio of atoms and each atom has its own characteristic weight, thus fixing the weight ratio of one element to the other. In addition he said that chemical reactions involved the combination, separation and rearrangement of combinations of those atoms (Doblecki). In other words, Daltons model was that the atoms were tiny, indivisible, indestructible particles and that each one had a certain mass, size, and chemical behavior that was determined by what kind of element they were Dalton did not convince everyone right away, however. Although a number of chemists were quickly convinced of the truth of the theory, JJ Thomson believed otherwise. In 1897, he accidentally discovered the electron through a series of experiments designed to study the nature of electric discharge in a high-vacuum cathode-ray tube—an area being investigated by numerous scientists at the time. Thomson had an inkling that the ‘rays emitted from the electron gun were inseparable from the latent charge, and decided to try and prove this by using a magnetic field. His first experiment was to build a cathode ray tube with a metal cylinder on the end. This cylinder had two slits in it, leading to electrometers, which could measure small electric charges. He found that by applying a magnetic field across the tube, there was no activity recorded by the electrometers and so the charge had been bent away by the magnet. This proved that the negative charge and the ray were inseparable and intertwined (Encyclopedia Britannica) He did not stop there, and developed a second stage to the experiment, to prove that the rays carried a negative charge. To prove this hypothesis, he attempted to deflect them with an electric field. Earlier experiments had failed to back this up, but Thomson thought that the vacuum in the tube was not good enough, and found ways to greatly improve the quality. For this, he constructed a slightly different cathode ray tube, with a fluorescent coating at one end and a near perfect vacuum. Halfway down the tube were two electric plates, producing a positive anode and a negative cathode, which he hoped would deflect the rays. As he expected, the rays were deflected by the electric charge, proving beyond doubt that the rays were made up of charged particles carrying a negative charge (Doblecki). He discovered the electron! In his third experiment, he used scientific deduction by performing a series of interconnected experiments, gradually accumulating data and proving a hypothesis. He decided to try to work out the nature of the particles. They were too small to have their mass or charge calculated directly, but he attempted to deduce this from how much the particles were bent by electrical currents, of varying strengths. Thomson found out that the mass to charge ratio was so high that the particles either carried a huge charge, or were a thousand time smaller than a hydrogen ion. He decided upon the latter and came up with the idea that the cathode rays were made of particles that emanated from with the atoms themselves. Thomson took the idea of the atom and tried to incorporate the evidence for the electron. In the diagram on the right, the electrons are the small things and the rest of the stuff is some positive matter. This is commonly called the plum pudding model because the electrons are like things in positive pudding. The plums were negative because cathode rays deflected towards the positive end. The pudding was defined by Thomson as the empty space that surrounded electrons because the overall charge of the atom had to be neutral, so he deductively reasoned that this space had to be positive In 1911, Ernest Rutherford, under the theory that atoms are uniform in structure, said â€Å"hey, I think I will shoot some stuff at atoms.† So he did. He fired radioactive particles through minutely thin metal foils (notably gold) and detected them using screens coated with zinc sulfide (a scintillator). He thought to himself, â€Å"If you shoot these positive alpha particles at this positive pudding atom, they should mostly bounce off, right?† Well, that is not what happened. Although some of them did bounce back, Rutherford found that most of the alpha particles— one in eight-thousand— went right through the foil (Chemical Heritage Foundation). He said, â€Å"It was as if you fired a 15 inch artillery shell at a piece of tissue paper and it bounced back and hit you†. His experiment became famously known as the gold foil experiment. How could that be if the plumb pudding model was correct? Rutherfords experiment prompted a change in the atomic mod el. After two years of contemplating the results of his experiment, he came up with a new atomic theory. His atomic theory described the atom as having a densely packed central positive nucleus surrounded by negative orbiting electrons (Chemical Heritage Foundation). He concluded that the center repelled the electrons. This model suggested that most of the mass of the atom was contained in the small nucleus, and that the rest of the atom was mostly empty space (Doblecki). Niels Bohr proposed yet another atomic model in 1915, which was a simplified picture of an atom known as the Bohr Model that stemmed from previous studies by Max Planck and Albert Einstein. Max Planck presented a theoretical explanation of the spectrum of radiation emitted by an object that glows when heated. He argued that the walls of a glowing solid could be imagined to contain a series of resonators that oscillated at different frequencies. These resonators gain energy in the form of heat from the walls of the object and lose energy in the form of electromagnetic radiation (Doblecki). The energy of these resonators at any moment is proportional to the frequency with which they oscillate . Albert Einstein extended Plancks work to the light that had been emitted. Einstein suggested that light behaved as if it was a stream of small bundles, or packets, of energy (MacTutor). In other words, light was quantized, or countable Bohr then took Plancks and Einsteins findings on energy and developed an atomic theory that is similar to quantum mechanics, the correct theory of the atom, but is much simpler. In the Bohr Model the neutrons and protons, symbolized by red and blue balls, occupy a dense central region called the nucleus, and the electrons orbit the nucleus much like planets orbiting the Sun. He found that electrons travel in stationary orbits defined by their angular momentum. This led to the calculation of possible energy levels for these orbits and the postulation that the emission of light occurs when an electron moves into a lower energy orbit (MacTutor). Calculations based on Bohrs model determined that the shapes of the orbitals of the electrons vary according to the energy state of the electron. Bohr discovered that different electrons have different energies. The lowest energy state is generally termed the ground state. The states with successively more energy than the ground state are called the first excited state, the second excited state, and so on. Then, when an electron moves back to its normal energy level, it releases electromagnetic energy Finally, we have reached the electron cloud model, which the current atomic model used today in scientific, educational and research settings. The electron cloud model is a model of the atom where the electrons are no longer depicted as particles moving around the nucleus in a fixed manner, like in the Thomson, Rutherford and Bohr models. Instead, the electron cloud model does not illustrate exactly where electrons are—their probable location can only be described as around the nucleus only as an arbitrary cloud (Science Encyclopedia). The nucleus contains both protons and neutrons, while the electrons float about outside of the nucleus. Within the nucleus, the probability of finding an electrons is .00, but within the electron cloud there is a high probability of finding electrons As I stated earlier, however, the atomic model is not a concrete, one-hundred percent accurate depiction of the atom or description of what the atom is like. We cannot base our model on actual observations of atoms, because they are too small to be seen even with our most sensitive instruments. Thus, this current atomic model is most likely to change in the future, as technology advances and scientists continue in-depth research and experimentation. Most likely, students papers a few years from now will need to be twelve pages instead of six to outline the history of the ever-changing atomic model.

Blue Swimming Crabs :: Fishermen, Malaysia, Bardawil Lagoon

Blue swimming crabs are an important source of income for fishermen in the Malaysia, also known as ‘ketam bunga’ or ‘ketam renjong’ in the name of the local. The high price and increased demands in among community will cause the over-exploitation in production of blue swimming crabs. In 2003, total landings for P. pelagicus were approximately 175,000 tons and decrease to 165,000 tons in 2004 (FAO Fish Stat, 2009). This decline from over-exploitation has an impact in some Asian countries (Ikhwanuddin et al., 2005). In Malaysia, statistics from Department of Fisheries (DOF) shows that the landings of P. pelagicus is 3514 tons in 2007 and increase to 4427 tonnes in 2008 but the landings is decrease in 2009 with 3057 tones. These declines total the crabs fishing at territorial water in Malaysia as an early marker of deficiency will the crabs in the future because of the increasing the catch and the damage of coastal environments, the amount of P. pelagicus is ra pidly decreased. However, P. pelagicus cultured are important from the beginning of the last decade because of high demand for live crabs and crabs products in the export market. Due to their fast growth rates to market size (Josileen and Menon, 2005) and relative ease of hatchery production (Walker, 2006), the aquaculture interest of this species is growing. Blue swimming crabs are of high value and quality, a profitable export markets in Singapore, Kuala Lumpur, Hong Kong, South Korea, Taiwan and Japan by Australian producers (Stevens, 1997) Now day, P. pelagicus are cultured for the production of the lucrative soft-shell crab market on recirculation and lined pond systems in Australia (O'Neill, 2003 and Walker, 2006). Blue Swimming crabs are not only popular in Malaysia but another country a lot of crabs caught along the Coast of Dar es Salaam in Tanzania (Chande and Mgaya, 2004), Bardawil Lagoon of Northern Sinai in Egypt (Abdel Razak et al., 2006), Park Bay and the Gulf of Mannar in India, the West Coast of South Australia in Australia (Dixon et al., 2008) and at Southern Trang Province of Thailand (Sawusdee and Songrak, 2009). An estimate of blue swimming crabs caught in the waters around southern Australia from 2007 to 2008 was 669 tonnes valued at $ 5,740,000 by Knight and Tsolos (2009). Blue swimming crab landings in India increased from 20,000 to 48,380 tons at 30 percent for years 1977 to 2005 (Samuel et al.

Lg Background

LG Google TV LG Google TV Executive summary: When we chose the LG Google TV we had in mind that this product is a succssesful product which satisfied peoples’ needs , and would be a great choice for making a marketing plan. In this marketing plan, we will discuss the following: * Company Background. * The challenge that LG Company went through to have this product. * Companies SOWT analysis (Strengths , opportunities , weaknesses and threats) * Company Background: â€Å"life’s good† or LG company was originally established in 1958 from two Korean companies ( lucky and GoldStar).They produce radios, washing machines , TV , laptops and air conditioners . in 1994 ,GoldStar gained sponsorship from The 3DO Company to make the first 3DO Interactive Multiplayer. In 1995 ,GoldStar was renamed LG electronics of the US. In 2007, LG solar Energy allow LG to supply polyisicon to LG Electronics for more production . in 2008, LG received its solar-panel manufacturing pool. Now adays LG become an international leader and technology in consumer electronics, TV and smart phones. And its one of the five business units- Home Entertainment ,AC and etc. LG Mission:LG mission statements are to become a global digital leader who can make its customers happy and satisfied through the new products. Its explains its goal to be innovate electronics company in the world. Therefore they provide customers with utmost satisfaction through leadership. The fundamental policy of development is to secure product leadership that the customers may have the utmost satisfaction. LG Vision: LG electronics set its own vision into mid and long vision anew to rank among top three electronics ,information, and telecommunication firm in the world people.LG’s vision to deliver innovative digital products and services that make its customers’ live better because its slogan is â€Å" life’s better†. LG electronics’ environmental product policy is to comm ittee provide a better experience for its customers, by contributing to environmental protection efforts, and offering green values. Value Chain: In value chain management is a physical materials needed to produce the flat-screen displays move along the value chain so as to lower costs and increase overall efficiency. In value chain analysis is to study the main things in human resources function.In addition, the newest Google TV has been the outsourcing of Human resources especially . in primary value chain activities include which is include primary activity description inbound logistics. The Challenge: LG and Google. The best of all worlds! Merge the power of Google, the boundless content of the Internet and one of the most innovative TVs ever made, and in a very short announcement , LG told the world that its OLED TV and Ultra Definition TV panels, in 55in and 84in sizes respectively, would be available before the year is through.A much-anticipated Google TV will also debut, usi ng an updated Magic Motion remote control with integrated QWERTY keyboard. Australian availability for any of these models is uncertain, as is pricing. What is known about the LG's OLED TV is that they are using four pixels rather than the traditional three. with LG claiming reduced power consumption and brighter images due to this setup. Wide viewing angles are claimed to be especially broad due to an LG proprietary algorithm that the company is calling its ‘Colour Refiner’.LG says its OLED TV will have an ‘infinite’ contrast ratio, that is supposed to allow the TV to display perfectly black blacks and bright whites that is similar to real life colours . TV companies have previously made this claim for less-advanced LED TVs and it has turned out to be not true at any level. LG does tout the motion response rate of its 55in OLED TV, saying it is around 1,000 times faster than an LED or LCD screen, with clean and blur-free video the result.LG’s OLED T V uses the company’s Cinema 3D technology, which uses polarised light to allow for smooth 3D playback and lighter, cheaper 3D glasses. And that it's apparently more thin and appealing to the eyes of the customers. References: 1. Study mode, 2013, LG background. [online] available at: < http://www. studymode. com/essays/lg=background-298003. html > Accessed at March 18, 2013. 2. [online] available at: < https://www. facebook. com/LGRomania/app_304815564557 > 3. Knowledge inn, 2013, LG mission. [online] available at: < http://kninn. logspot. com/2011/07/lg-mission. html > 4. LG website, 2013, LG vision. [online] available at: < http://www. lg. com/global/sustainability/environment/environmental-vision > 5. Study mode, 2013, Value chain. [online] available at: < http://www. studymode. com/subjects/lg-value-chain-page2. html > 6. PC world, 2013, LG shows off OLED, Google TV, Ultra Definition TVs at CES. [online] available at: < http://www. goodgearguide. com. au/article/411882/lg _shows_off_oled_google_tv_ultra_definition_tvs_ces_/ > Accessed at 20 March 2013

Health & Aging among Baby Boomers Essay

Post WWI era babies (around 1946) until a marked slow in the birth rate of children (around 1964) were termed â€Å"Baby Boomers.† In time, these youngsters came to remove or, at the very least, redefine traditional values in nearly all aspects of life. The social changes taking place in the United States during this time were paramount. The paths taken by young adults, particularly in the 1960’s and 1970’s, were varied and not all well-chosen. However, as baby boomers â€Å"boomed† into their sixties in around  2006, many regrets later, focuses on health care – preventative, acute and chronic was on the forefront of importance. â€Å"Baby Boomers† had a positive impact on health care, in that it instrumentally turned it into a business expected to offer customer service. (Blanchette, 2014) Coming of age in an era that demanded not only customer service, but high quality health care, as well as, a friendly environment, baby boomers enjoyed the perks of medical advancements. These advancements included outpatient treatments for a larger array of ailments which appointments could be adjusted to meet the needs of the patient; therefore, less stressing about re-arranging schedules or missing work. (Blanchette, 2014) The importance of preventative care forged from the â€Å"boom era,† too. Preventative visits gave physicians the opportunity to teach patients and make certain they understood the proactive measures to take to remain healthy in order to prevent the necessity of hospitalization. (Blanchette, P. L.) Reference Blanchette, P. L. (2014). Health and aging among baby boomers. Retrieved from http:////search.proquestgenerations.com/docview/212225560/accounttid-458