The Evolution of British Tea Traditions in the 18-19th Centuries Essay Example for Free

The Evolution of British Tea Traditions in the 18-19th Centuries Essay Foreigners have many ideas about what the English like. I can say that a nation is born from its land, its history, its art, its institutions and its traditions. Britain is famous for its immutable traditions. The traditional love of English people for tea is well known by all over the world. The English have always drunk tea as a nation. And I understand their love for tea: it’s good any time of day, it’s very refreshing, and it can restore you, when you are tired. But it’ll be better to notice, that time is changing everything. It’s changing the style of our life. It’s becoming faster and faster every year. Different life – different traditions! Certainly tea-drinking, as a part of the English tradition, changed. Nowadays, unlike food, tea could be offered to anyone at any time without inconvenience and without breaking any of the rules of decorum. Its service provided a focal point for social activities, enabling people of differing rank to meet and converse, and helping to spread the polite values of refinement, gentility and sociability. More than two centuries ago, in early eighteenth century Britain tea was usually prepared by the lady of the house in front of her guests. It was habitually taken in the mid-afternoon, after dinner, but as the century progressed, it was also more often drunk at breakfast. According to Likhachev D.S., who worked on the analysis of the Nature of cultural traditions, Each generation, in its activities, makes the choice of existing traditions (taking some tradition or aspects of them and at the same time rejecting others), and gives them their own interpretation. And so, most likely, the tea-drinking tradition was changed by the generations, the slaves of time in manifest error of what a real tradition is.

The Assessed Causes Of The First World War :: history

The Assessed Causes Of The First World War Long Term Causes And Arguments: In 1838, a agreement was formed to protect Belgium if attacked or invaded. Briton along with other major European powers signed this therefore dragging themselves into the First World War when Germany invaded Belgium to fight France. In 1848, Austria-Hungary under Franz Josef lost a war against France, beginning a long rivalry between the two countries. In 1860, Italy was founded which agravated Austria-Hungary as parts of ithe land had originally been owned by them. In 186, Austria-Hungary under Franz Josef lost to Prussia creating tention between Austria-Hungary and yet more countries within Europe. In 1870, the Franco-Prussian War happened. France, led by Napoleon III, lost to Wilhelm I. This loss meant Alsace-Lorraine was joined on to Germany Empire. France would never forget this and was keen for revenge. In 1875, France set up a War college â€Å"Ecole Superieure de Guerre† which implied that they were building up a strong army to attack Germany again. In 1879, the Dual Allience was formed between Germany and Austria-Hungary, although Wilhem I was afraid that it might damage relations with Russia, which had always supported Prussia. In 1881, The Emperors League was formed creating more allies for Germany and Austria-Hungary. In 1882, Italy who had been waiting to see which was the stronger empire between the two sides finally joined Germany and formed the Triple allience. In 1888, Wilhelm I died and Wilhelm II was appointed Emperior of Germany. In 1890, Germany refused to renew the Russian Reinsurance Treaty and lets Russia go off to find new allies. In 1891, Russia and France agreed to protect each other if either country was attacked(the Franco-Russian Alliance). This created more strain on Germany as the surrounding empires teamed up. In 1904, Briton became an unoffical member of the Franco-Russian allience, building up to fight Germany if attacked. In 1912, Briton and France agreed to join each others battles if it was an unprovoked attack. The Pig War: The Pig war was an attempt by Austria-Hungary to stop the Pan-Serb movement and eventually Serbia, but all that came from this was a stronger Serbia and encouragement to get revenge somehow. Serbia’s main trade was in live-stock and so in 1906 Austria-Hungary stopped the import of all Serbia’s livestock. The Pig war had begun and continued for five years with unexpected results from both Serbia and Austria-Hungary.

Editorial Essay

Deryn 6 June 2012 Should Uniforms be Worn in Schools? In recent years we have been faced with the question; should uniforms be worn in public schools? Some would agree with the idea of students switching out their regular attire for khakis and button-ups. But on the other hand, others, considering me, would like to see this generation flourish and express individuality. I understand that the supporters of this conception would like to see all students as equal beings and to not worry about whose wearing the latest outfit or coolest clothes.They believe it will eliminate barriers, social and economic, among schools, which is partially true, considering they all will be dressed alike, so no one will be cast out. However, this will just be another expense to the parents who already fund public schools through taxes. Also, it will make students potential targets for bullies from other schools, only masking the already present school violence. Faculty and school districts will also find i t difficult to enforce new dress codes, due to the fact that students will not be used to the new imposed apparel.Furthermore, students will have no sense of uniqueness because they will all be identical in a manner. They will have no right to freedom of expression because they will be bonded down by the chains of equality. We should not be forced to be the same. We should be encouraged to be different. Maybe if schools would teach kids to be proud of who they are we wouldn’t have to debate over whether or not we should wear school uniforms. We should keep school uniform wearing to a minimal and display distinctiveness in schools nationwide.

3 D Optical Storage

3-D OPTICAL DATA STORAGE TECHNOLOGY * *ABSTRACT 3D optical data storage is the term given to any form of optical data storage in which information can be recorded and/or read with three dimensional resolution (as opposed to the two dimensional resolution afforded, for example, by CD). Current optical data storage media, such as the CD and DVD store data as a series of reflective marks on an internal surface of a disc. In order to increase storage capacity, it is possible for discs to hold two or even more of these data layers, but their number is severely limited since the addressing laser interacts with every layer that it passes through on the way to and from the addressed layer. These interactions cause noise that limits the technology to approximately 10 layers. 3D optical data storage methods circumvent this issue by using addressing methods where only the specifically addressed voxel (volumetric pixel) interacts substantially with the addressing light. This necessarily involves nonlinear data reading and writing methods, in particular non linear optics. 3D optical data storage is related to (and competes with) holographic data storage. Traditional examples of holographic storage do not address in the third dimension, and are therefore not strictly â€Å"3D†, but more recently 3D holographic storage has been realized by the use of microholograms. Layer-selection multilayer technology (where a multilayer disc has layers that can be individually activated e. g. electrically) is also closely related. This innovation has the potential to provide terabyte-level mass storage on DVD-sized disks. Data recording and readback are achieved by focusing lasers within the medium. However, because of the volumetric nature of the data structure, the laser light must travel through other data points before it reaches the point where reading or recording is desired. Therefore, some kind of nonlinearity is required to ensure that these other data points do not interfere with the addressing of the desired point. 1. Overview: Current optical data storage media, such as the CD and DVD store data as a series of reflective marks on an internal surface of a disc. In order to increase storage capacity, it is possible for discs to hold two or even more f these data layers, but their number is severely limited since the addressing laser interacts with every layer that it passes through on the way to and from the addressed layer. These interactions cause noise that limits the technology to approximately 10 layers. 3D optical data storage methods circumvent this issue by using addressing methods w here only the specifically addressed voxel (volumetric pixel) interacts substantially with the addressing light. This necessarily involves nonlinear data reading and writing methods, in particular nonlinear optics. 3D optical data storage is related to (and competes with) holographic data storage. Traditional examples of holographic storage do not address in the third dimension, and are therefore not strictly â€Å"3D†, but more recently 3D holographic storage has been realized by the use of microholograms. Layer-selection multilayer technology (where a multilayer disc has layers that can be individually activated e. g. electrically) is also closely related. Schematic representation of a cross-section through a 3D optical storage disc (yellow) along a data track (orange marks). Four data layers are seen, with the laser currently addressing the third from the top. The laser passes through the first two layers and only interacts with the third, since here the light is at a high intensity. As an example, a prototypical 3D optical data storage system may use a disk that looks much like a transparent DVD. The disc contains many layers of information, each at a different depth in the media and each consisting of a DVD-like spiral track. In order to record information on the disc a laser is brought to a focus at a particular depth in the media that corresponds to a particular information layer. When the laser is turned on it causes a photochemical change in the media. As the disc spins and the read/write head moves along a radius, the layer is written just as a DVD-R is written. The depth of the focus may then be changed and another entirely different layer of information written. The distance between layers may be 5 to 100 micrometers, allowing >100 layers of information to be stored on a single disc. In order to read the data back (in this example), a similar procedure is used except this time instead of causing a photochemical change in the media the laser causes fluorescence. This is achieved e. g. by using a lower laser power or a different laser wavelength. The intensity or wavelength of the fluorescence is different depending on whether the media has been written at that point, and so by measuring the emitted light the data is read. It should be noted that the size of individual chromophore molecules or photoactive color centers is much smaller than the size of the laser focus (which is determined by the diffraction limit). The light therefore addresses a large number (possibly even 109) of molecules at any one time, so the medium acts as a homogeneous mass rather than a matrix structured by the positions of chromophores. 2. History: The origins of the field date back to the 1950s, when Yehuda Hirshberg developed the photochromic spiropyrans and suggested their use in data storage. [3] In the 1970s, Valeri Barachevskii demonstrated that this photochromism could be produced by two-photon excitation, and finally at the end of the 1980s Peter T. Rentzepis showed that this could lead to three-dimensional data storage. [5] This proof-of-concept system stimulated a great deal of research and development, and in the following decades many academic and commercial groups have worked on 3D optical data storage products and technologies. Most of the developed systems are based to some extent on the original ideas of Rentzepis. A wide range of physical phenomena for data reading and recording have been investigated, large numbers of chemical systems for the medium have been developed and evaluated, and extensive work has been carried out in solving the problems associated with the optical systems required for the reading and recording of data. Currently, several groups remain working on solutions with various levels of development and interest in commercialization. *3. Processes for creating written data*: Data recording in a 3D optical storage medium requires that a change take place in the medium upon excitation. This change is generally a photochemical reaction of some sort, although other possibilities exist. Chemical reactions that have been investigated include photoisomerizations, photodecompositions and photobleaching, and polymerization initiation. Most investigated have been photochromic compounds, which include azobenzenes, spiropyrans, stilbenes, fulgides and diarylethenes. If the photochemical change is reversible, then rewritable data storage may be achieved, at least n principle. Also, multilevel recording, where data is written in ‘grayscale’ rather than as ‘on’ and ‘off’ signals, is technically feasible. 3. 1 Writing by non*-*resonant multiphoton absorption Although there are many nonlinear optical phenomena, only multiphoton absorption is capable of injecting into the media the significant energy required to electronically excite molecular species and cause chemical reactions. Two-photon absorption is the strongest multiphoton absorbance by far, but still it is a very weak phenomenon, leading to low media sensitivity. Therefore, much research has been directed at providing chromophores with high two-photon absorption cross-sections. Two photon absorption (TPA) is the simultaneous absorption of two photons of identical or different frequencies in order to excite a molecule from one state (usually the ground state) to a higher energy electronic state. The energy difference between the involved lower and upper states of the molecule is equal to the sum of the energies of the two photons. Two-photon absorption is a second-order processes several orders of magnitude weaker than linear absorption. It differs from linear absorption in that the strength of absorption depends on the square of the light intensity, thus it is a nonlinear optical process Writing by 2-photon absorption can be achieved by focusing the writing laser on the point where the photochemical writing process is required. The wavelength of the writing laser is chosen such that it is not linearly absorbed by the medium, and therefore it does not interact with the medium except at the focal point. At the focal point 2-photon absorption becomes significant, because it is a nonlinear process dependent on the square of the laser fluence. Writing by 2-photon absorption can also be achieved by the action of two lasers in coincidence. This method is typically used to achieve the parallel writing of information at once. One laser passes through the media, defining a line or plane. The second laser is then directed at the points on that line or plane that writing is desired. The coincidence of the lasers at these points excited 2-photon absorption, leading to writing photochemistry. 3. 2 Writing by sequential multiphoton absorption Another approach to improving media sensitivity has been to employ resonant wo-photon absorption (also known as â€Å"1+1† or â€Å"sequential† 2-photon absorbance). Nonresonant two-photon absorption (as is generally used) is weak since in order for excitation to take place, the two exciting photons must arrive at the chromophore at almost exactly the same time. This is because the chromophore is unable to interact with a single photon alone. However, if the chromophore has an ene rgy level corresponding to the (weak) absorption of one photon then this may be used as a stepping stone, allowing more freedom in the arrival time of photons and therefore a much higher sensitivity. However, this approach results in a loss of nonlinearity compared to nonresonant 2-photon absorbance (since each 1-photon absorption step is essentially linear), and therefore risks compromising the 3D resolution of the system. 3. 3 Microholography In microholography, focused beams of light are used to record submicrometre-sized holograms in a photorefractive material, usually by the use of collinear beams. The writing process may use the same kinds of media that are used in other types of holographic data storage, and may use 2-photon processes to form the holograms. . 4 Data recording during manufacturing Data may also be created in the manufacturing of the media, as is the case with most optical disc formats for commercial data distribution. In this case, the user cannot write to the disc – it is a ROM format. Data may be written by a nonlinear optical method, but in this case the use of very high power lasers is acceptable so media sensitivity becomes less of an issue. The fabrication of discs containing data molded or printed into their 3D structure has also been demonstrated. For example, a disc containing data in 3D may be constructed by sandwiching together a large number of wafer-thin discs, each of which is molded or printed with a single layer of information. The resulting ROM disc can then be read using a 3D reading method. 3. 5 Other approaches to writing Other techniques for writing data in three-dimensions have also been examined, including: Persistent *spectral** **hole burning* (PSHB), which also allows the possibility of spectral multiplexing to increase data density. However, PSHB media currently requires extremely low temperatures to be maintained in order to avoid data loss. Void* formation, where microscopic bubbles are introduced into a media by high intensity laser irradiation. [7] Chromophore poling, where the laser-induced reorientation of chromophores in the media structure leads to readable changes. *4. Processes for reading data*: The reading of data from 3D optical memories has been carried out in many different ways. While some of these rely on the nonlinearity of the light-matter interaction to obtain 3D resolution, others use methods that spatially filter the media's linear response. Reading methods include: Two photon absorption (resulting in either absorption or fluorescence). This method is essentially two-photon-microscopy. Linear excitation of fluorescence with confocal detection. This method is essentially confocal laser scanning microscopy. It offers excitation with much lower laser powers than does two-photon absorbance, but has some potential problems because the addressing light interacts with many other data points in addition to the one being addressed. Measurement of small differences in the refractive index between the two data states. This method usually employs a phase contrast microscope or confocal reflection microscope. No absorption of light is necessary, so there is no risk of damaging data while reading, but the required refractive index mismatch in the disc may limit the thickness (i. e. number of data layers) that the media can reach due to the accumulated random wavefront errors that destroy the focused spot quality. Second harmonic generation has been demonstrated as a method to read data written into a poled polymer matrix. Optical coherence tomography has also been demonstrated as a parallel reading method. *5. Media *design: The active part of 3D optical storage media is usually an organic polymer either doped or grafted with the photochemically active species. Alternatively, crystalline and sol-gel materials have been used. 5. 1 Media form factor Media for 3D optical data storage have been suggested in several form factors: Disc. A disc media offers a progression from CD/DVD, and allows reading and writing to be carried out by the familiar spinning disc method. Card. A credit card form factor media is attractive from the point of view of portability and convenience, but would be of a lower capacity than a disc. Crystal, Cube or Sphere. Several science fiction writers have suggested small solids that store massive amounts of information, and at least in principle this could be achieved with 3D optical data storage. 5. 2 Media manufacturing The simplest method of manufacturing – the molding of a disk in one piece – is a possibility for some systems. A more complex method of media manufacturing is for the media to be constructed layer by layer. This is required if the data is to be physically created during manufacture. However, layer-by-layer construction need not mean the sandwiching of many layers together. Another alternative is to create the medium in a form analogous to a roll of adhesive tape. *6. Drive design*: A drive designed to read and write to 3D optical data storage media may have a lot in common with CD/DVD drives, particularly if the form factor and data structure of the media is similar to that of CD or DVD. However, there are a number of notable differences that must be taken into account when designing such a drive, including: Laser. Particularly when 2-photon absorption is utilized, high-powered lasers may be required that can be bulky, difficult to cool, and pose safety concerns. Existing optical drives utilize continuous wave diode lasers operating at 780 nm, 658 nm, or 405 nm. 3D optical storage drives may require solid-state lasers or pulsed lasers, and several examples use wavelengths easily available by these technologies, such as 532 nm (green). These larger lasers can be difficult to integrate into the read/write head of the optical drive. Variable spherical aberration correction. Because the system must address different depths in the medium, and at different depths the spherical aberration induced in the wavefront is different, a method is required to dynamically account for these differences. Many possible methods exist that include optical elements that swap in and out of the optical path, moving elements, adaptive optics, and immersion lenses. Optical system. In many examples of 3D optical data storage systems, several wavelengths (colors) of light are used (e. g. eading laser, writing laser, signal; sometimes even two lasers are required just for writing). Therefore, as well as coping with the high laser power and variable spherical aberration, the optical system must combine and separate these different colors of light as required. Detection. In DVD drives, the signal produced from the disc is a reflection of the addressing laser beam, and is therefore very intense. For 3D optical storage however, the signal mus t be generated within the tiny volume that is addressed, and therefore it is much weaker than the laser light. In addition, fluorescence is radiated in all directions from the addressed point, so special light collection optics must be used to maximize the signal. Data tracking. Once they are identified along the z-axis, individual layers of DVD-like data may be accessed and tracked in similar ways to DVD discs. The possibility of using parallel or page-based addressing has also been demonstrated. This allows much faster data transfer rates, but requires the additional complexity of spatial light modulators, signal imaging, more powerful lasers, and more complex data handling. *7. Development issues*: Despite the highly attractive nature of 3D optical data storage, the development of commercial products has taken a significant length of time. This results from limited financial backing in the field, as well as technical issues, including: Destructive reading. Since both the reading and the writing of data are carried out with laser beams, there is a potential for the reading process to cause a small amount of writing. In this case, the repeated reading of data may eventually serve to erase it (this also happens in phase change materials used in some DVDs). This issue has been addressed by many approaches, such as the use of different absorption bands for each process (reading and writing), or the use of a reading method that does not involve the absorption of energy. Thermodynamic stability. Many chemical reactions that appear not to take place in fact happen very slowly. In addition, many reactions that appear to have happened can slowly reverse themselves. Since most 3D media are based on chemical reactions, there is therefore a risk that either the unwritten points will slowly become written or that the written points will slowly revert to being unwritten. This issue is particularly serious for the spiropyrans, but extensive research was conducted to find more stable chromophores for 3D memories. Media sensitivity. 2-photon absorption is a weak phenomenon, and therefore high power lasers are usually required to produce it. Researchers typically use Ti-sapphire lasers or Nd:YAG lasers to achieve excitation, but these instruments are not suitable for use in consumer products. *8. Academic development*: Much of the development of 3D optical data storage has been carried out in universities. The groups that have provided valuable input include: Peter T. Rentzepis was the originator of this field, and has recently developed materials free from destructive readout. *Watt W. Webb* co developed the two-photon microscope in Bell Labs, and showed 3D recording on photorefractive media. Masahiro Irie developed the diarylethene family of photochromic materials. [13] Yoshimasa Kawata, *Satoshi Kawata* and Zouheir Sekkat have developed and worked on several optical data manipulation systems, in particular involving poled polymer systems. 14] Kevin C Belfield is developing photochemical systems for 3D optical data storage by the use of resonance energy transfer between molecules, and also develops high 2-photon cross-section materials. Seth Marder performed much of the early work developing logical approaches to the molecular design of high 2-photon cross-section chromophores. Tom Milster has made many contributions to the theory of 3D optical data storage. Robert McLeod has examine d the use of microholograms for 3D optical data storage. Min Gu has examined confocal readout and methods for its enhancement. 9 Commercial development*: In addition to the academic research, several companies have been set up to commercialize 3D optical data storage and some large corporations have also shown an interest in the technology. However, it is not yet clear whether the technology will ever come to market in the presence of competition from other quarters such as hard drives, flash storage, holographic storage and internet-based storage. Examples of 3D optical data storage media. Top row – Written Call/Recall media; Mempile media. Middle row – FMD; D-Data DMD and drive. Bottom row – Landauer media; Microholas media in action. Call/Recall was founded in 1987 on the basis of Peter Rentzepis' research. Using 2-photon recording (at 25 Mbit/s with 6. 5 ps, 7 nJ, 532 nm pulses), 1-photon readout (with 635 nm), and a high NA (1. 0) immersion lens, they have stored 1 TB as 200 layers in a 1. 2 mm thick disk. [23] They aim to improve capacity to >5 TB and data rates to up to 250 Mbit/s within a year, by developing new materials as well as high-powered pulsed blue laser diodes. Mempile are developing a commercial system with the name TeraDisc. In March 2007, they demonstrated the recording and readback of 100 layers of information on a 0. mm thick disc, as well as low crosstalk, high sensitivity, and thermodynamic stability. [25] They intend to release a red-laser 0. 6-1. 0 TB consumer product in 2010, and have a roadmap to a 5 TB blue-laser product. [26] *Constellation 3D* developed the Fluorescent Multilayer Disc at the end of the 1990s, which was a ROM disk, manufactured layer by layer. The company failed in 200 2, but the intellectual property (IP) was acquired by D-Data Inc. who are attempting to introduce it as the Digital Multilayer Disk (DMD). Storex Technologies has been set up to develop 3D media based on fluorescent photosensitive glasses and glass-ceramic materials. The technology derives from the patents of the Romanian scientist Eugen Pavel, who is also the founder and CEO of the company. First results, 40 nm marks recorded into 3D virtual layers separated by 700 nm, were presented in October 2009 at the ISOM2009 conference. Landauer inc. are developing a media based on resonant 2-photon absorption in a sapphire single crystal substrate. In May 2007, they showed the recording of 20 layers of data using 2 nJ of laser energy (405 nm) for each mark. The reading rate is limited to 10 Mbit/s because of the fluorescence lifetime. Colossal Storage aim to develop a 3D holographic optical storage technology based on photon induced electric field poling using a far UV laser to obtain large improvements over current data capacity and transfer rates, but as yet they have not presented any experimental research or feasibility study. Microholas operates out of the University of Berlin, under the leadership of Prof Susanna Orlic, and has achieved the recording of up to 75 layers of microholographic data, separated by 4. micrometres, and suggesting a data density of 10 GB per layer. [33] 3DCD Technology Pty. Ltd. is a university spin-off set up to develop 3D optical storage technology based on materials identified by Daniel Day and Min Gu. Several large technology companies such as Fuji, Ricoh and Matsushita have applied for patents on 2-photon-responsive materials for applications including 3D optical data storage, however they have not giv en any indication that they are developing full data storage solutions.

Am I The One Professor Ramos Blog

Am I The One In the book â€Å"The Woman Hollering Creek: And Other Short Stories†, there is a short story called â€Å"There Was a Man, There Was a Woman†, and in that very complicated story there can be very many outcomes to it depending how you look at it. To me this story ended in way of both the man and women having no purpose in their lives.The man in the story would get paid every second and fourth Friday of the month, but the woman would get paid the first and third Friday of the month. Therefore every friday they got paid they would go to the bar and drink thinking that the alcohol would boost their confidence to go up to a special someone to spark a conversation. Even with the alcohol both the man and woman would do nothing every friday. The end of the story leaves it with a cliffhanger because the readers dont know if they are going to be each other purpose? Will they even meet? In the mans life he has his group of friends that he goes to the bar, but he has that friend that he can talk to about anything. So the next time they meet at the bar the friend asks the man a very open question, â€Å"Why do you drink so much?†the man answers with â€Å"because Im hoping that the alcohol will bring me that confidence I need†. In the friends head he thinks to himself, â€Å"We’ve been doing the same routine for a year now and he still hasn’t spoken to a female†, but he continues to keep it to himself. Looking at the womans life she doesn’t have that one friend she can vent to so every night so she prays in hope to find that one purpose that she has been on the search for awhile now. Every night she starts her prayer off with a â€Å"Hey its me again† and continues it with her thanking God of what she has and after she asks him to â€Å"show her the way to happiness†. She knows that one of these days she needs to stop drinking and find herself. So the next day she gets a call saying that the checks are coming in late so she was getting paid the second Friday of the month, her taking that as a sign she tells herself that that friday was going to be the last time she was going to the bar. The mans friend finally builds the courage to tell him that him continuing this routine was not helping him in anyway and that he should find a new hobby. The friend and the man get into a huge argument about his current situation in always drinking and letting time pass him by. Both the friend and man start talking about why they are even fighting in the first place and they talk about the past in which they both met in high school and they would never fight because they knew they only had each other in those lonely times in a very mean world called high school. That one math class sophomore year, the teacher paired the man up with the friend for their performance task for the month and both the man and the friend did not know one another but still continued to do their best in completing their work. The man was always lazy and left most of the work for the friend, but just like in present time the friend built up his confidence and told the man that â€Å"I ain’t going to d o all this work for you, so if you want to continue your lazy ways have fun failing the class†, the man took a real look at himself and realized that just like in the past the friend was right and now it is happening again. So the friend and man come to the conclusion of this Friday was going to be the last time going to the bar. Its the womans last week for work before she can go to the bar one last time and she is really excited about it because deep within herself she feels like this is going to be the day she builds her confidence to speak to that one special guy. Its the mans last week of work before he can go to the bar one last time and he feels sad about it because he has to give up the one thing he really enjoyed doing, but knows its for the best. The man and friend would hangout after work everyday of the week and spit jokes, talk about work, also on what they were going to wear for the bar because not only is it going to be their last time going to the bar, but the bar was throwing their 50th anniversary so they were doing these crazy deals on alcohol. Since the bar was doing this they knew they were going to be seeing some new faces. The woman after work would go straight home and think about how much work sucked and how much fun she was going to have at the bar not knowing they were throwing thei r 50th anniversary for the bar. The second Friday of the month has arrived, the woman took about 2 hours to get ready. When she finished getting ready she looks in the mirror and says â€Å"Today is the day†, she has a huge smile on her face and is ready to go. The man took about 10 minutes to get ready. His hair slicked back with a white T under his flannel flexing his chain, he knows he is ready. The friend picks up the man and in a hurry they make it to the bar. The woman calls an uber and gets to the bar pretty late. When the man and the friend arrived they quickly go to the bar and order their cheap alcohol. When the woman arrived she quickly went looking for the man that would catch her eye. Finally the man and friend decided to go on the dance floor because they were both buzzed and did not care on how they looked they just wanted to have fun. Finally the woman stopped the search and came to the conclusion in dancing the night away. The man and friend both are dancing funny and the man bumps into the woman and they both stared into each others eyes as if they were staring into the moon those lonely nights. The man leaves the friend and talks to woman on how beautiful she looked and the woman talks about how handsome he looked. The man thinking to himself that this situation doesnt feel right to him and maybe she wasnt the one. She believes that he is the one and she continues to flirt with the man and the friend looking at them in disgust. The man comes to the conclusion in his head and tells the woman how he feels. The man says to her â€Å" I know we just met, I feel like we have known each other our whole lives, but im sorry to tell you this, but Im in love with my best friend.†

A Comparison Of Machiavelli And Hobbes Politics Essay

A Comparison Of Machiavelli And Hobbes Politics Essay Machiavelli and Hobbes were the most important political philosophers of early modernity. Politically, modernitys earliest phase starts with  Niccolà ³ Machiavellis works which openly rejected the medieval and Aristotelian style of analyzing politics by comparison ideas about how things should be, in favor of realistic analysis of how things really are. He also proposed that an aim of politics is to control one’s own chance or fortune, and that relying upon providence actually leads to evil. Machiavelli argued, for example, that violent divisions within political communities are unavoidable, but can also be a source of strength which law-makers and leaders should account for and even encourage in some ways.   [ 1 ]    Machiavelli’s recommendations were sometimes influential upon kings and princes, but eventually came to be seen as favoring free republics over monarchies. Machiavelli in turn influenced  Francis Bacon,  Marchamont Needham,  Harrington,  Jo hn Milton,  David Hume, and many others.   [ 2 ]    Important modern political doctrines which stem from the new Machiavellian realism include  Mandeville’s influential proposal that â€Å"Private Vices by the dexterous Management of a skilful Politician may be turned into Public Benefits† (the last sentence of his  Fable of the Bees), and also the doctrine of a constitutional â€Å"separation of powers† in government, first clearly proposed by  Montesquieu. Both these principles are enshrined within the  constitutions  of most  modern democracies. It has been observed that while Machiavelli’s realism saw a value to war and political violence, his lasting influence has been â€Å"tamed† so that useful conflict was deliberately converted as much as possible to formalized political struggles and the economic â€Å"conflict† encouraged between free, private enterprises.   [ 3 ]    As I said in the first paragraph of this e ssay I will start with  Thomas Hobbes, attempts were made to use the methods of the new modern physical sciences, as proposed by  Bacon  and  Descartes, applied to humanity and politics. Notable attempts to improve upon the methodological approach of Hobbes include those of  Locke,  Spinoza,  Giambattista Vico  and Rousseau.  David Hume  made what he considered to be the first proper attempt at trying to apply Bacon’s scientific method to political subjects, rejecting some aspects of the approach of Hobbes.   [ 4 ]    Modernist republicanism openly influenced the foundation of republics during the  Dutch Revolt  (1568-1609),  English Civil War  (1642-1651),  American Revolution  (1775-1783) and the  French Revolution  (1789-1799 A second phase of modernist political thinking begins with Rousseau, who questioned the natural rationality and sociality of humanity and proposed that  human nature  was much more malleable than had been pr eviously thought. By this logic, what makes a good political system or a good man is completely dependent upon the chance path whole person has taken over history. This thought influenced the political (and aesthetic) thinking of  Immanuel Kant,  Edmund Burke  and others and led to a critical review of modernist politics. On the conservative side, Burke argued that this understanding encouraged caution and avoidance of radical change. However more ambitious movements also developed from this insight into human  culture, initially  Romanticism  and  Historicism, and eventually both the  Communism  of  Karl Marx, and the modern forms of  nationalism  inspired by the  French Revolution, including, in one extreme, the German  Nazi  movement.

Principal-agent theory provides definitive answers to how ownership Essay

Principal-agent theory provides definitive answers to how ownership and control problems should be overcome in particular firms - Essay Example As Lane indicates, the analysis of multifaceted private contracting initiated the development of the principal-agent theory. A difference can be made between temporary contracting as with the buying and selling of goods on the one hand and continuing contracting on the other hand whereby an individual hires another individual or group of individuals to work for them against compensation (2). A principal-agent correlation is a contract in which one or more individuals appoint another individual to carry out some service on their behalf whereby the former is the principal and the later is the agent. This entails entrusting some decision making power to the agent which is fairly common. For instance, a homeowner (principal) may employ a carpenter (agent) to repair her table while a client (principal) may hire a lawyer (agent) to defend his case. Principal-agent correlations also normally arise within organizations, even though the above two examples describe relations in a private setti ng. In organizations, the role of the principal is often played by the board of directors, which contracts a manager to manage the institution in the interest of the investors or in the interest of the stakeholders in the case of a nonprofit organization (Caers et.al, 26). Principal-agent theory is used to portray a dyadic relation between a buyer and a seller. At its most basic levels, this model originated from economics. In this relationship the buyer makes a deal with the seller and has the finances to acquire the seller’s service of the service. This means that the buyer has the control required to fund and realize the service that they require. Conversely, the seller can push the association to their favor and increase the price since they have more knowledge concerning the service they are providing than the buyer does. However, either the seller or buyer can employ this to their benefit depending on phrasing of the contract. Principal-agent theory assumes that the sel ler and the buyer do not yearn for a jointly beneficial result of the association, but would somewhat pay less or charge more than what the other is offering (Cohen, 5) In a principal-agent interaction at least two people are to partner in the formation of a service that has value. However, the two individuals are not of the same legal standing or partners. The agent is the individual who works for the principal while the principal puts up the payment for agent’s effort against the value that the agent gives to the principal in the form of a product of some sort. Consequently, principal-agent interaction is basically an agreement on how much of the value that the agent produces should go back to him/her as an earning. Nevertheless, what makes the principal-agent model unique is the extra assumption of asymmetric information, meaning that the agent knows more than the principal about the service under consideration in a manner that may influences the contracting results (Lane, 2). In the principal-agent model, the payoff to the principal relies on an action taken by the agent. The principal cannot contract for the action, but can pay off the agent founded on some evident sign that is associated with the action. The first mover is the principal who decides an incentive system for paying the agent depending on the apparent sign. On the hand, the agent decides the best action to take, given the incentives, and then chooses whether to accept the principal’s offer, based on the estimated payment and the prejudiced cost of carrying out the action. Upon agreeing, the agent decides an action that makes the most of his remunerations and the principal monitors the signal associated with t