Concept of supply and demand; of antitrust laws and of labor unions Essay

Concept of supply and demand; of antitrust laws and of labor unions - Essay Example This research will begin with the presentation of the concept of supply and demand. It has become one of the most important concepts in modern day economics. Indeed this concept can be summed up as the one in which, the producer of a commodity has a certain quantity for sale in the market and that quantity which consumers are ready to buy. As a result of this, the demand for a particular commodity depends on a number of factors like the commodity price, related commodity prices and also consumers buying power and choices. The supply of a particular commodity depends on a number of factors like the cost incurred in the production of that particular commodity, the price of related kinds of products and many other factors. The concept of supply and demand is always existent and the market’s main aim is to bring a form of stability and equilibrium between the demand as well as supply through the pricing of commodities. Antitrust Laws are special type of laws that have been created by the American government in order to prevent the formation of monopolies, which could otherwise result in unhealthy market competition. Thus these are a set of Federal laws which can be applied in case of both businesses as well as individuals. The first Antitrust law in America was created in the year 1890. Thus this law ensures that, all the individuals and the various business establishments are given a fair deal, hen it comes to market competition and that no single company or individual gains an upper hand in business dealings unlawfully.

Claytronics Case Essay Example for Free

Claytronics Case Essay Claytronics is an emerging field of engineering concerning reconfigurable nanoscale robots designed to form much larger scale machines or mechanisms. Also known as programmable matter, the catoms will be sub-millimeter computers that will eventually have the ability to move around, communicate with each others, change color, and electrostatically connect to other catoms to form different shapes. The forms made up of catoms could morph into nearly any object, even replicas of human beings for virtual meetings. . Likely spherical in shape, a catom would have no moving parts. Rather, it would be covered with electromagnets to attach itself to other catoms; it would move by using the electromagnets to roll itself over other catoms. The catoms surfaces would have light-emitting diodes to allow them to change color and photo cells to sense light, allowing the collective robot to see. Each would contain a fairly powerful, Pentium-class computer . According to Carnegie Mellons Synthetic Reality Project personnel, claytronics are described as An ensemble of material that contains sufficient localcomputation, actuation, storage, energy, sensing, and communication which can be programmed to form interesting dynamic shapes and configurations. The idea is not to transport objects nor is it to recreate an objects chemicalcomposition, but rather to create a physical artefact,that will mimic the shape, movement, visual appearance,sound, and tactile qualities of the original object INTRODUCTION: Programmable matter one day could transform itself into all kinds of look-alikes The day when doctors routinely made house calls may be past, but that doesnt mean that someday you wont routinely see your doctor in your home with emphasis on see. That is to say, your doctor could physically work out of her office. But a three-dimensional lookalike, assembled from perhaps a billion tiny, BB-like robots, could be her stand-in in your home. She could talk with you, touch you, look at you, all under the control of the real, if distant, doc. After the examination, she could be disassembled, leaving behind a big pile of beads. Or the beads might reassemble into a piece of moving sculpture, or turn into a chair. Not a single such robot yet exists; building the one-millimeter diameter robots that Goldstein envisions is beyond current technology. And he acknowledges it could be decades before a synthetic doctor is possible, much less affordable.But its not too soon to start thinking about it. Its a little like putting a man on the moon, said Todd Mowry.Its not just a problem of building tiny robots, but figuring out how to power them, to get them to stick together and to coordinate and control millions or billions of them. No ones even sure what to call it. Claytronics, synthetic reality and programmable matter have been proposed. Dynamic physical rendering is the label Intel uses. Each of the individual robots comprising these people or shapes would be a claytronic atom, or catom. Likely spherical in shape, a catom would have no moving parts. Rather, it would be covered with electromagnets to attach itself to other catoms; it would move by using the electromagnets to roll itself over other catoms. *The catoms surfaces would have light-emitting diodes to allow them to change color and photo cells to sense light, allowing the collective robot to see. Each would contain a fairly powerful, Pentium-class computer. CLAYTRONICS, A SYNTHETIC REALITY [pic][pic] The big advantage of designing on a computer is the ease of changing things, like color and shape. But, especially for 3D objects, it has some disadvantages. You don’t really get a feel for the object: What does it look like when I walk around it? How does it feel when I hold it in my hands? With Claytronics technology this problem could be solved. What is Claytronics? Claytronics is an emerging field of engineering concerning reconfigurable nanoscale robots (claytronic atoms, or catoms) which can interact with each other to form tangible 3-D objects that a user can interact with.They are designed to form much larger scale machines or mechanisms. Also known as programmable matter, the catoms will be sub-millimeter computers that will eventually have the ability to move around, communicate with each others, change color, and electrostatically connect to other catoms to form different shapes. The forms made up of catoms could morph into nearly any object, even replicas of human beings for virtual meetings. Claytronics technology is currently being researched by Professor Seth Goldstein and Professor Todd C. Mowry at Carnegie Mellon University, which is where the term was coined. . The Carnegie Mellon University together with Intel are currently researching this technology. Though it might seem somewhat futuristic, they are confident that it can be realized and they’ve got Moore’s Law( describes a long-term trend in the history of computing hardware, in which the number of transistors that can be placed inexpensively on an integrated circuit has doubled approximately every two years) to back it up. According to Carnegie Mellons Synthetic Reality Project personnel, claytronics are described as An ensemble of material that contains sufficient local computation, actuation, storage, energy, sensing, and communication which can be programmed to form interesting dynamic shapes and configurations. Claytronics has the potential to greatly affect many areas of daily life, such as telecommunication, human-computer interfaces, and entertainment In other words, programmable matter will allow us to take a (big) step beyond virtual reality, to synthetic reality, an environment in which all the objects in a user’s environment are physically realized. Note that the idea is not to transport objects nor is it to recreate an objects chemical composition, but rather to create a physical artefact that will mimic the shape, movement, visual appearance,sound, and tactile qualities of the original object Claytronics though based upon on concepts of physics and electronics in schoolbooks (and a neat trick), its a technology of 2040 and 2050 due to the technical challenge scientific and engineering community live with. Challenge is to develop and control this material on the scale of nanometers (100 times thinner then human hair, 1 nanometer = 10 -9 meters). Claytronics doesnt end with working together philosophy or networked computing alone. Catoms, basic blocks of claytronics can morph their physical and chemical properties, meaning same material can be of different mechanical, thermal properties, can have different shape or size, different color, fluorescent material can be converted to super reflecting mirror. These highlights and long wait till Year 2040/50. . Our goal is that the system be usable now and scalablefor the future. Thus, the guiding design principle,behind both the hardware and the software, is SCALABILITY.Hardware mechanisms need to scale towards micronsized catoms and million-catom ensembles. Software mechanisms need to be scale invariant. Claytronics will be a test-bed for solving some of the most challenging problems we face today: how to build complex, massively distributed dynamic systems. It is also a step towards truly integrating computers into our lives—by having them integrated into the very artifactsaround us and allowing them to interact with the world. Catoms Programmable matter consists of a collection of individual components, which we call claytronic atoms or catoms. Catoms can †¢ move in three dimensions in relation to other catoms, †¢ adhere to other catoms to main ­tain a 3D shape, communicate with other catoms in an ensemble, and compute state information with possible assistance from other catoms in the ensemble. Each catom is a unit with a CPU, a network device, a single-pixel display, one or more sensors, a means of locomotion, and a mechanism for adhering to other catoms. Although this sounds like a microrobot, we believe that imple ­menting a completely autonomous microrobot is unnecessarily complex. Instead, we take a cue from cellular reconfigurable robotics research to simplify the individual robot modules so that they are easier to manufacture using high-volume methods. Ensemble principle: Realizing this vision requires new ways of thinking about massive num ­bers of cooperating millimeter-scale units. Most importantly, it demands simplifying and redesigning the soft ­ware and hardware used in each catom to reduce complexity and manufactur ­ing cost and increase robustness and reliability. For example, each catom must work cooperatively with others in the ensemble to move, communi ­cate, and obtain power. Consequently, our designs strictly adhere to the ensemble principle: A robot module should include only enough functionality to contribute to the ensemble’s desired functionality. Three early results of our research each highlight a key aspect of the ensemble principle: easy manufacturability, powering million-robot ensem ­bles, and surface contour control with ­out global motion planning. High-Volume Manufacturability Some catom designs will be easier to produce in mass quantity than others. Our present exploration into the design space investigates modules without moving parts, which we see as an inter ­mediate stage to designing catoms suit ­able for high-volume manufacturing. In our present macroscale (44-mm diameter), cylindrical prototypes, shown in Figure 1, each catom is equipped with 24 electromagnets arranged in a pair of stacked rings. To move, a pair of catoms must ï ¬ rst be in contact with another pair. Then, they must appropriately energize the next set of magnets along each of their circumferences. . The current prototypes can only overcome the frictional forces opposing their own horizontal movement, but downscaling will improve the force budget substantially. The resulting force from two similarly energized magnet coils varies roughly with the inverse cube of distance, whereas the ï ¬â€šux due to a given coil varies with the square of the scale factor. Hence, the potential force generated between two catoms varies linearly with scale. Meanwhile, mass varies with the cube of scale. Powering Microbot Ensembles:. Some energy requirements, such as effort to move versus gravity, scale with size. Others, such as communi ­cation and computation, don’t. As microrobots (catoms) are scaled down, the onboard battery’s weight and volume exceed those of the robots themselves. To provide sufï ¬ cient energy to each catom without incurring such a weight and volume penalty, we’re developing methods for routing energy from an external source to all catoms in an ensemble. For example, an ensemble could tap an environmental power source, such as a special table with pos ­itive and negative electrodes, and route that power internally using catom-to ­catom connections. To simplify manufacturing and accelerate movement, we believe it’s necessary to avoid using intercatom connectors that can carry both supply and ground via separate conductors within the connector assembly. Such complex connectors can signiï ¬ cantly increase reconï ¬ guration time. For example, in previously con ­structed modular robotic systems such as the Palo Alto Research Center’s PolyBot and the Dartmouth Robotics Lab’s Molecule it can take tens of seconds or even minutes for a robot module to uncouple from its neighbor, move to another module, and couple with that newly proximal module. In contrast, our present unary-con ­nector-based prototypes can â€Å"dock† in less than 100 ms because no special connector alignment procedure is required. This speed advantage isn’t free, however: A genderless unary con ­nector imposes additional operational complexity in that each catom must obtain a connection to supply from one neighbor and to ground from a dif ­ferent neighbor. Several members of the Claytronic team have recently developed power distribution algorithms that satisfy these criteria. These algorithms require no knowledge of the ensemble conï ¬ g ­uration—lattice spacing, ensemble size, or shape—or power-supply loca ­tion. Further, they require no on-catom power storage. Shape Control Without Global Motion Planning: Classical approaches to creating an arbitrary shape from a group of mod ­ular robots involve motion planning through high-dimensional search or gradient descent methods. However, in the case of a million-robot ensemble, global search is unlikely to be tractable. Even if a method could globally plan for the entire ensemble, the communi ­cations overhead required to transmit individualized directions to each mod ­ule would be very high. In addition, a global plan would break down in the face of individual unit failure. To address these concerns, we’re developing algorithms that can control shape without requiring extensive planning or communication. This approach focuses on the motion of holes rather than that of robots per se. Given a uniform hexag ­onal-packed plane of catoms, a hole is a circular void due to the absence of seven catoms. Such a seven-catom hole can migrate through the ensemble by appropriate local motion of the adja ­cent catoms. Holes migrate through the ensemble as if moving on a frictionless plane, and bounce back at the ensemble’s edges. Just as bouncing gas molecules exert pressure at the edges of a balloon, bouncing holes interact frequently with each edge of the ensemble without the need for global control. As Figure 2 illustrates, edges can contract by con ­suming a hole or expand by creating a hole, purely under local control. We initiate shape formation by â€Å"ï ¬ ll ­ing† the ensemble with holes. Each hole receives an independent, random veloc ­ity and begins to move around. A shape goal speciï ¬ es the amount each edge region must either contract or expand to match a desired target shape. A hole that hits a contracting edge is consumed. In effect, the empty space that constitutes the hole moves to the outside of the ensemble, pulling in the surface at that location. Similarly, expanding edges create holes and inject them into the ensemble, pushing its contour out in the c orresponding local region. [pic] Importantly, all edge contouring and hole motion can be accomplished using local rules, and the overall shape of an ensemble can be programmed purely by communicating with the catoms at the edges. Hence, we use probabilistic methods to achieve a deterministic result. Our initial analyses of the cor ­responding 3D case suggest surface contour control will be possible via a similar algorithm. Ping-Pong to marble size A large, moving shape such as a human replica might contain a billion catoms. A system with a billion computer nodes, he added, is something on the scale of the entire Internet. . . . Unlike the real Internet, our thing is moving. This will require new schemes for quickly organizing and reorganizing such a large computer network. A moving shape will necessarily force catoms to constantly and quickly change positions, breaking connections with one set of catoms and establishing new connections with others. The idea behind self-reconfigurable robots is that a robot could change shape depending on a task perhaps operating as a snake-like robot to wiggle through tight spaces, while taking the form of a spider or a humanoid for other types of exploration. Identifying each catom by a number, like each computer on the Internet, isnt likely to work. Rather, catoms may identify themselves based on function or position a catom replicating a human would need to know if it was part of a pinky finger, or a mouth, or an eye. Power also has been a concern. As we shrink thingswe find that weight and bulk is primarily in the battery.The idea is to eliminate the battery. Instead, the catoms will automatically form themselves into electrical circuits, so delivering power to one catom effectively delivers power to all of the catoms. As the shape moves and the catoms rearrange themselves, connections will be repeatedly made and broken, interupting power. So the catoms will be designed with a capacitor or small battery to hold just enough charge to compensate for the momentary disconnections. The system also will be engineered to maintain its shape even when powered off. proposes covering the sides of the catoms with manmade fibers similar to the microscopic foot hairs of the gecko, a tropical lizard.The millions of hairs on a geckos toes allow it to cling to almost any surface. The hairs arent sticky, but rely on weak electrodynamic forces known as the van der Waals force. If the synthetic hairs can be fashioned out of the microscopic fibers known as carbon nanotubes, the hairs could conduct electricity and might serve as the electrical connections between catoms.. Even if claytronics doesnt immediately yield 3-D motion, it might be useful for producing 3-D shapes in the computer-aided design process, Goldstein said. Claytronics antennas could change shape to improve reception of different radio frequencies. A Claytronics cell phone might grow a full-size keyboard, or expand its video display as needed. [pic] The Concept and the trick Catoms, of which claytronics machines will built upon are kind of rich quantum dot. Quantum dot is basically a semiconducting crystal (material used in ICs for almost any electronic or computing device) on a nanoscale, so we can call it semiconducting nanocrystal. Quantum dots unlike normal semiconducting crystal caters to single or more electrons on a scale small enough that they can be called as artificial atoms without their own nucleus. To make this understand better Quantum dots controls can control almost single electron in its own territory. These territories have different levels, in scientific term called discrete energy levels on the order of De-Broglies wavelength. Trick is really simple in theory; every substance on a atomic level is identified based upon its atomic number and atomic mass number. Atom has three basic atomic particles (no of basic particles discovered is high as of now) electron, proton and neutron. In a balanced atom no of electrons and protons are same, so no of electrons indicates atomic number as well. Here in Quantum dots we can manipulate no of electrons trapped by adjusting the voltage to the metal. Creating lots of such artificial atoms in metal like semiconductor can alter lots of its chemical and electronic properties to make a non transparent metal behave like a transparent mirror maybe. A Modular Robotic System Using Magnetic Force Effectors One of the primary impediments to building ensembles of modular robots is the complexity and number of mechanical mechanisms used to construct the individual modules. As part of the Claytronics project—which aims to build very large ensembles of modular robots— investigation is done on how to simplify each module by eliminating moving parts and reducing the number of mechanical mechanisms on each robot by using force-at-a-distance actuators. Additionally, also investigating the feasibility of using these unary actuators to improve docking performance, implement intermodule adhesion, power transfer, communication, and sensing. Three magnetic 45mm planar catoms. I. Introduction Advances in manufacturing and electronics open up new possibilities for designing modular robotic systems. As the robots become smaller, it becomes possible to use force-at-adistance actuators—e.g., actuators which cause one module to move relative to another via magnetic or electric fields external to the modules themselves. Furthermore, as the cost and power consumption of electronics continue to decrease, it becomes increasingly attractive to use complex electronics rather than complex mechanical systems. In this paper, we explore how a single device that exploits magnetic forces can be harnessed to unify actuation, adhesion, power transfer, communication, and sensing. By combining a single coil with the appropriate electronics we can simplify the robot— reducing both its weigt and size—while increasing its capabilities. Furthermore ,since we are interested in the ensemble as a whole, we do not require that individual units be self-sufficientAs long as individual units can contribute to the overall motion of the ensemble, they do not need the ability to move independently within the greater environment. We call this design principle the ensemble axiom: each unit contains only the minimum abilities necessary to contribute to the aggregate functionality of the ensemble. Choosing the right mechanism for locomotion is a key design decision. In addition to scalability, the size of the unit must also be taken into account. At the macroscale,complex mechanisms such as motors are effective. However, as units scale down in size other approaches become viable, taking advantage of increasing surface-to-volume ratio and decreasing of inertial moments. Our current robots, which we call planar catoms1, are small enough that we can explore a mechanism designed around magnetic field forceat- a-distance actuators. As the units decrease further in size, actuators based upon electric field forces become viable and are appealing because they use less current, produce less heat, and weigh less than magnetic actuators. Even smaller units could harness surface forces such as surface tension or Van der Waals’ forces. The size scale also affects power transfer and storage: because electrical resistance increases as contact size decreases, direct electrical connections between robots become increasingly impractical. II. Related Work Of the many research efforts the most relevant to our work is Fracta Fracta is a two dimensional modular robot which uses a combination of permanent magnets and electromagnets for locomotion and adhesion. As in our planar catoms, to move a module requires communication between the moving module and its neighbors. The two main differences between Fracta and planar catoms are due to changes in underlying technology and the use of permanent magnets. Fracta modules are constrained to be in a hex-lattice whereas the planar catoms have additional actuators and can be arranged in a cubic or hex lattice. Significant advances in VLSI enable us to create smaller, lighter units which do not use permanent magnets. We also harness the magnets for more than locomotion and adhesion, i.e., the magnets also serve as the main mechanism for power transfer, sensing, and communications. Planar catoms are our first step along the path towards realizing three dimensional claytronics. The robots rely on the external forces and move stochastically, adhering to each other under control of the program running on the robot. The ensemble principle is carried even further in the latter project; robots are unpowered until they adhere to a powered robot.

Relationship Between Buddhism and Politics

Relationship Between Buddhism and Politics Hale, Hunter Power, Politics, and Buddhism Religion and politics are considered by some, like the founders of the United States, items that should remain separate. But try as anyone might as long as people believe in religions their personal beliefs in these religions will always help shape their decision making processes. Buddhism is no different and specifically in Southeast Asia many political policies and views have been shaped by the Buddhas teachings. Buddhism has a model in which the relationship of Buddhism practices, values, and institutions manage to influence the negotiation of power and politics and there are also different relationships between Buddhism, kingdoms and modern states dotted during different historical times in Southeast Asia. To begin, the discussion of a model that dictates all relationships between Buddhism and politics seems quite hard to believe in. This is because once the Buddha passed onto parinirvana and time took its toll, Buddhism branched out into different sects which have different ways of interpreting the dhamma. Although this is not to say that Buddhism did not have influences with politics and power while the Buddha was still alive. It can be safely assumed that Buddhism was supported by the social, economic, and political elites for social, political, and also religious reasons. (Swearer 2010: 71) Siddhartha was brought up within the ruling khattiya class and therefore as the legends of the past might infer, monarchs such as his own father were giant supporters of Buddhism when it was first beginning to bloom and it is noteworthy to mention this. Royal and religious institutions supported each other in South and Southeast Asia on mutual terms; for the royal patronage of the order found in Buddhist monasteries was â€Å"reciprocated by institutional loyalty, and the construction of religious cosmologies and mythologies that valorized the king as the propagator of the Buddhas religion (sansa) were regarded as essential to the peaceful harmony and well-being of the state.† (Swearer 2010: 72). Now if there was a model to speak of that would help bring a strong example for how to rule for future Buddhist monarch it would be Asoka, The Exemplary Buddhist Ruler. Buddhism traditionally uses Asoka as the archetype of the cakkavattin, which is mythic Buddhist ruler who would personify the dhamma and rule by it, Asoka personified the dasarajadhamma or what is also known as the ten royal virtues. These royal virtues are, â€Å"generosity, moral virtue, self-sacrifice, kindness, self-control, non-anger, nonviolence, patience, and adherence to the norm of righteousness.† (Swearer 2010: 73) Asoka, was the grandson of Candragupta (the founder of the Mauryan dynasty which lasted from 317 189 B.C.E), and he took on the approaches of expansion shown by his forefathers and soon amassed the farest stretching political unity India knew before the coming of the colonial period. He ruled this immense empire starting from 270 B.C.E. until 232 B.C.E. and most of our understanding of Aso ka comes from pillars of that commemorated Asoka. The pillars were not the only things that show us into the history of Asoka but The Story of King Asoka, written in Sanskrit and three different Pali works named The Island Chronicle, The Great Chronicle, and commentary by Buddhaghosa on the Vinaya. (Swearer 2010: 73) When Asoka converted to Buddhism he changed history in a meaningful way which included the forming of Theravada Buddhism. King Kyanzittha of Pagan) and King Tilokaraja of Chiang Mai were two rules whom followed the ways of Asoka. They themselves became part of the history of Buddhism for, â€Å"The religion they support literally has its roots in the person of the Buddha, whose physical presence magically resides in his relics, and their political rule is grounded in the mythologized career of Asoka who, in turn, is represented as the historical embodiment of the first world ruler.† (Swearer 2010: 73) Narratives of Asoka, although somewhat a problem in historical terms with the different texts not always supporting each other, is something other rulers (like the previous mentioned ones) let them be guided by. Asoka in his ninth year of reign had a war break out within Magadha, which was the heartland of the Mauryan, and the Kalinga which the kingdom with the most power in India that still was not under Asokas rule. Asoka was moved by the horrors he inflicted upon the Kalingans which included the forced disruption of noncombatants, including priests and monk. Events such as these paved a way for his conversion and he transformed his beliefs into believing that true conquest could not be won over by arms but instead be won by the dhamma. Although some legends say that Asoka became extremely religious and even was a monk in his old age, the pillars provide us with a less figure much less religious and someone who promoted more by idealistic, humanitarian philosophy as opposed to Budd hist doctrinal interests. Rock edict number seven said that Asoka urged fidelity, purity of heart, self-mastery, and gratitude. Buddhas life story is mirrored by the story of Asokas conversion to Buddhism where one method (nibbana) replaced the other (samsara) and the prior then presupposes the rearmost. Asoka went from one who promoted things such as disorder and wickedness to someone who promoted positived things like order and righteousness. (Swearer 2010: 74-75) Asoka was the center point of the founding of the Theravada Buddhism and according to chronicles by the Theravada in Southeast Asia successful rulers, according to those who created the chronicles were the ones who emulated King Asoka. Those who did emulate Asoka built edifices especially stupas which were the centers for Buddhism in Southeast Asia, as well as purified the dhamma and the sangha. (Swearer 2010: 82) Buddhist monarchs in Southeast Asia emulated Asoka frequently. Especially in Asoka’s frequent building of the stupas. One such example is King Anirruddha who made Pagan become the dominant kingdom in Burma. Although the monuments in Pagan cannot match Angkor Wat or Borobudur, the sizes and extents are wondrous. Anniruddha brought to Pagan a relic from a stupa called the Baw-baw-kyi that was within the Pyu center of Thaton. Anniruddha’s successors also helped complete the stupas that he began and were even given more wondrous titles than him. (Swearer 2010: 94) Another king, called King Ramkhamhaeng helped foresee the Manansilapatra which was a stepped pyramid with which the king granted assemblies and then the monks were there to preach the dhamma. (Swearer 2010: 98) Buddhism has continued to influence political leaders and power even in recent times for example U Nu of Burma in January 1948 was elected the first prime minister of the freshly independent Union of Burma. He preached an dogma that mixed socialism and Buddhism basically stating that a community on a national level could only be built only if each person within the nation could overcome their selfish interests. He also argued against material goods saying that they were not meant to be saved or used for personal comfort but only for the necessities of life in the journey to nibbana. (Swearer 2010: 110) U Nu’s own lifestyle used elements of the traditional ideal of the righteous Buddhist monarch for example six months after he had taken up office the government was nearly toppled by an insurrection in which he responded with a vow of sexual abstinence. Another example of Buddhism effecting modern politics is S. W. R. D. Bandaranaike who was became the prime minister of Ceylon in the year 1956. Similar to U Nu he used the institutional power of Buddhism and symbols to gain office, however things such as a call by a monastic political party to make Sinhala the national language le d animosities which ended Bandaranaikes life in assassination. (Swearer 2010: 116-117) Bandaranaike also like U Nu promoted Buddhism rooted within socialism and although his lifestyle did not follow the righteous Buddhist monarch ideal the same as U Nu he used the Buddhist Middle Way to appeal to the masses in international as a well as national party; to many he is considered a national hero. In conclusion, Buddhism is deeply rooted within the political kingdoms and modern societies of Southeast Asia. Using the model Asoka set as a righteous ruler many rulers within Southeast Asia have emulated him. There has been a chain reaction of relationships between Buddhism and politics starting from the Buddha and his early monarch supporters, to King Anirruddha and in recent times U Nu and Bandaranaike. Bibliography Swearer, Donald K.The Buddhist World of Southeast Asia. Albany: State U of New York, 1995. Print.

Dangerous Secrets in Tobias Wolff?s Hunters in the Snow Essay -- Tobia

Dangerous Secrets in Tobias Wolff's Hunters in the Snow In Tobias Wolff's 'Hunters in the Snow', the three main characters each have secrets which they are concealing despite their friendships. These obscuring truths later cause trouble for each of the characters and will lead to their destruction. How will their decisions and lies impact their relationships? The first character introduced in the story is Tub. Tub is portrayed as being rather large. The reader?s first image of Tub is when Kenny says, ?He looks just like a giant beach ball with a hat on??(117). Tub?s inner conflict is his weight, which he lies about throughout the story. Tub is obviously self conscious about his weight and is in denial about his gluttony. He hides cookies and sandwiches in his clothes, but in the presence of his friends, he acts as if he is on a diet and eats a boiled egg and celery. His friends mock him about his diet and can see that he is not loosing but gaining weight. Later in the story, Tub finally reveals to Frank the truth about his gluttony. Tub admits, ?I?ve even got stuff (snacks) in the paper towel machine at work?Oreos, Mars Bars, Twinkies?(126). I believe that Tub reveals his secret to Frank because he wants help and he knows that Frank will be understanding. It is after this incident, that Frank takes Tub to a restaurant so he could eat until he was completely full. The second character in the story is Frank. One gets the impression that Frank is very masculine. He repeatedly tells Tub and Kenny things that would make them more of a man. When Tub complains that he is cold, Frank tells him to ?Stop bitching?Get centered?(118). Later, Frank tells Kenny that he is too talkative, as if men should not talk too much. This co... ...he held inside because of the constant mockery from Kenny and Frank, combined with his denial about gluttony, made it easy for him to shoot Kenny. Tub finally stood up for himself and protected himself. When Frank found out that Kenny was merely joking, his reaction was unsurprising and unsympathetic as if he knew an incident like that was soon to come and this was foreshadowed by Frank earlier in the story when he told Kenny ?You?re asking for it?(118). Although, the reader does not know exactly how Frank?s and Tub?s lies will impact their lives, one does see how Kenny?s lies will probably cost him his life because the hunters had taken the wrong turn and were not on their way to hospital. Work Cited Wolff, Tobias. "Hunters in the Snow." Perrine's Literature: Structure, Sound,_and Sense. Ed. Thomas R. Arp and Greg Johnson. New York: Heinle and Heinle, 2005.

Louisa May Alcott: Life and Work Essay

Louisa May Alcott is a female American Novelist born on November 29, 1832 and in Germantown, Pennsylvania (â€Å"Louisa May Alcott†). She had three sisters, a philosopher/teacher for a father, and a loving Mother (â€Å"Louisa May Alcott†). Her family is said to be her primary inspiration for her success in literature and also served as the foundation for her most popular book, â€Å"Little Women†. Based on the biography written by Stern, the stories of Alcott were lifted from â€Å"episodes from her life, her observations, her travels, her experiences, her reading† (xxii). The use of her own personal insights and experiences have made all of the stories as real as it could be during a time when the society is dominated by men and women are expected to become mere supporters. Nonetheless, Alcott has been a witness to her own strength and that of other women, which allowed her to accomplish a significant number of stories and literature that portrayed women as strong personages existing in a male-dominated society. In order to examine how Alcott has presented women as strong characters in a predominantly male society, her stories, such as â€Å"Little Women† and â€Å"Work: A Story of Experience,† are used to show the distinct power and role that women held in relation to the existing power dynamics between men and women. â€Å"Work: A Story of Experience† Women experienced a pivotal role in the industrial era as workers and as channels for the advocacies of the female working class. In the novel â€Å"Work: A Story of Experience,† the main character, Christie Devon, is shown as a women of great character as she tries to find her rightful place in the industrial age. After her several attempts, she ended up as mediator between the female working class and the owners of the businesses where they work in (Alcott 355). Christie has attributed her distinct capacity to serve as an instrument of negotiation to her mother and father, who are both seen of equally great importance (Alcott 355). In this particular work of Alcott, the author maintained a sense of reality in terms of the existing social structure between men and women in the industries and never denied the presence of gaps between the two. However, women are given the chance to voice out their concerns regarding the oppression they felt, which consequently increases their chances of receiving better treatment. The need for women who are strong enough to bring forth the concerns of the female working class is expressed by Alcott, who states that such women were much needed and not always easy to find; for even in democratic America the hand that earns its daily bread must wear some talent, name, or honor as an ornament, before it is very cordially shaken by those who wear white gloves. (355). In the said quote, there are three distinct elements that show the strength and renewed importance provided for females. First, females are given greater chances of participating in different affairs in the society provided that they have the necessary qualifications to do so. With the said qualifications, they are allowed to express their concerns and make contributes to decisions related to matters that directly affect them. The use of qualifications as a form of permit to engage in matters usually dominated by male is also realized by Christie, who mentioned that the attributes she inherited from both her mother and father are enough for her work as a negotiator. Second, the author recognized the existence of women who have the ability to participate but also noted their inherent rarity. The recognition made by author shows that women have gained strength and shared a certain amount of power albeit in rare instances. It is not to say that it is impossible for women to become as strong as Christie but should strive harder in order to gain a distinct position in the society. In fact, the words of the author do not serve as limitations but of recognition of the presence of strong and able women and implies the need to further increase their number. Third, the author also takes note that there are people in the society with who the females need to be at par with. Those with the â€Å"white gloves† can serve as representations of a class that the women should infiltrate through their qualifications. To a certain extent, it can be understood as the domination of males in the different areas of the society. The congregation of males is seen to be one where affiliation is strictly confounded by certain limitations. Nonetheless, the author still maintained the ability of strong females to break the barriers and become affiliated with the male-dominated fields in the society. Aside from the points mentioned above, the novel also represents women who are able to work outside their houses and take on roles that are different from the ones they usually did inside the household. The women portrayed in this particular novel of Alcott are shown to have the ability to work in different careers and are indeed allowed to do so. It is an indication of their ability to break the common stereotype attached to women at that time, which is to remain inside the household and attend to the needs of the family members. Nonetheless, the women are not spared from their household chores and are still expected to fulfill the usual roles attached to being a mother and a wife. Despite the inherent difficulty, the women are still able to cope with the need to balance both the demands of their work and families that renders them capable of succeeding at different tasks at one time. â€Å"Little Women† The novel, â€Å"Little Women† was published in 1868 and revolved around the story of four different women who are considered to be taken from the experiences of Alcott with her three other sisters (Richards 123). The novel’s main characters, being women, are used by the author to send â€Å"a feminist message about the shared challenges all women face in male-dominated society† (Richards 123). The author placed emphasis on the different barriers that often limited the opportunities made available to women. The obstacles enumerated in the novel are the burden of finding a husband who can serve the needs of the female, restrictions with regard to the choices in terms of career, and problems with regard to access to college education. All four women are shown in the novel to have their own distinct characters and their own means of coping with the difficulties they face as women. Jo, whose experiences are often related to that of the Louisa Alcott, is known to be a tough and free-spirited character (Walker and Dresner 115). All of the other characters are known to be struggling with the factors that limit their capacities. One well-known example is that of Jo who took great leaps in order to fulfill her goals and dreams. The three other women have also shown their own strength as they conquer and fulfill the problems and the expectations. All of them are shown as individuals who are able to work their way out of the comforts of the households and successfully overcame the different dilemmas they faced. The portrayal of the lives and struggles of the four women is successful and also appealed to the senses of the audience. As a result, a sequel to the novel was published and showed a different phase in the lives of the four women. In the second volume, the women are also shown to have their own individual struggles and the means they used to overcome the said struggles. In both volumes of â€Å"Little Women,† the females are presented together with their experiences with regard to the struggles they have to face in a male-dominated society. Interestingly, all of the women are able to face their problems with utmost strength, which shows that women have the capability to overcome the challenges because they have the skills to cope with the said difficulties. Likewise, it allows women to find their strength with other women and to provide the needed comfort and help, especially during difficult times. In fact, there is no other substitute for the kind of care provided by women and the courage they exhibit during critical times. At the time when Beth became ill from scarlet fever, it is her sisters who decided to take care of her. All of them remained strong despite the condition of Beth and took the initiative to solve their problems without needing much help from other people. On another note, Alcott have also shown that despite the dominance of males in the society, the females are still able to succeed in their own professions through their own little ways. In this respect, women are able to show that it is not the number that counts but the skills, knowledge, and abilities that they have. Other Stories In the other stories written by Alcott, the focus is also on the females and how they tried to overcome the problems they face in their own respective fields of profession. An example of this is how a woman is used as the main character for the â€Å"Candy Country. † In the said story, the woman is shown as a person who is capable of acquiring knowledge for the sake of enhancing their own welfare where the author states that â€Å"she goes home and grows up from a ‘sickly, fretful child’ to a ‘fine, strong woman’†¦Ã¢â‚¬  (Alcott xxxv). Despite the simplicity of the story, Alcott ensured that the main character portrays the strength of women despite the domination of men in the society. Conclusion The stories of Alcott are used to represent the strength of women despite the dominance of male in the society. Stories, such as â€Å"Work: A Story of Expereince† and â€Å"Little Women,† the author is able to show the difficulties faced by women and the distinct coping mechanisms carried out in order to solve their problems. Aside from this, Alcott have also shown that women are able to enter aspects of society that are known to be dominated by male. The access stems from their qualifications and abilities that prove they can also be at par with the rest of the population. Works Cited Alcott, Louisa May. Louisa May Alcott’s fairy tales and fantasy stories. Knoxville: The University of Tennessee Press, 1992. Print. Alcott, Louisa May. Work: A Story of Experience. Charleston, SC: Bibliobazaar, 2008. Print. Louisa May Alcott. Louisa May Alcott Memorial Association. 2004. Web. 18 July 2010. Richards, Paulette. Terry McMillan: A Critical Companion. Westport, CT: Greenwood Publishing, 1999. Print. Stern, Madeleine. Louisa May Alcott: A Biography. Lebanon, NH: University Press of New England, 1996. Print. Walker, Nancy and Zita Dresner (Eds). Redressing the Balance: American Women’s Literary Humor from Colonial Times to the 1980s. Jackson, University Press of Mississippi, 1988. Print.

Kyrgyzstan Essays - Kyrgyzstan, Republics, Post-Soviet States

Kyrgyzstan Essays - Kyrgyzstan, Republics, Post-Soviet States Kyrgyzstan The collapse of the Soviet Union created 15 new states. These states over the last 5 years have all struggled with economic, ethnic, political and territorial problems left to them by the Soviet empire. Kyrgyzstan, is a former Soviet Republic (FSR) located in the Central Asia. This paper will give a statistical representation of the state, Kyrgyzstan. The statistical data will reflect the basic geography of the subject country containing population, size and location. This miniature report will also contain brief descriptions of current political and economic situations. Included in the current information section of this report, is an outlook for possible near future events concerning both political stability and economy. Kyrgyzstan is located in the southern area of the former Soviet Union. Its boarders are defined by China to the east (& South), Kazakhstan to the north (& Northwest), Uzbekistan directly west and Tajikistan to the south (Kyrgyzstan features 76,641 square miles of land, which consisted of .9% of the former USSR's land-mass. The land is primarily used for pastoral purposes. Only 7% of the farmable land is cultivated. The population is approximated to be 4,258,000 people (see Figure A). The Kyrgyzstan populace has experienced a 25.3% growth in population during the last 12 years (Population Growth Data from 1979-1991), and a birthrate at 29.1/1000. Population distribution is 61.9% in rural areas and 38.1% in urban centers. City & Population The top 4 cities are: Bishkek (formally Frunze) 616,000 (Capitol) Osh 213,000 Przhevalsk 64,000 Naryn 26,000 In June of 1990 ethnic violence arose in the city of Oh. Kyrgyz clashed with Uzbeks resulting in a bloody conflict which was eventually suppressed by Soviet Interior Ministry troops. This clash outlined political and economic problems present in Kyrgyzstan even when the USSR was still existent. These ethnic clashes in Oh served to cement political groups who were organizing outside of the communist party during Perestroika. It also gave voice to the large economic problems in central Kyrgyzstan. The "head of state" and leader of the communist party in Kyrgyzstan was Absamat Masaliev. Masaliev invoked policies which were rigid and served to enhance the existing social problems. Because of the decline present in the government's abilities to meet the expectations of the populace, the allowances granted by the Perestroika police and ethnic tensions, communist authority in Kyrgyzstan was challenged. The communist party's rule came to an end in October of that same year. A liberal democratic reform movement had sweeped the country and Askar Akaev was elected by a coalition vote in the Supreme Soviet (Legislature of Kyrgyzstan), resulting in the removal of Masaliev from the Presidency. Askar Akaev is a liberal politician (former head of the Academy for Sciences) and represented reform in the form of privatization and democracy. The transformation of government from communism to a liberal democracy occurred smoothly without violent uprisings or revolution. However, Akaev has opponents on both sides of the political spectrum. Masaliev, though not the president, is still the head of the communist party and very powerful. On the right, the government has to deal with the potential time bomb of ethnicity and nationalism. The current political agenda for the reform government contains these issues: economic stimulation, development of diplomatic relations with other states, privatization of property, a language purification issue and environmental concerns. These issues are all presently being address and codified in the formation of the new constitution (only economics, privatization of property and industry and language are addressed below). The industrial sector of the Kyrgyzstan economy is primarily owned by residing Russians in the capital, Bishkek. This is a point of contention in the on-going debates of land and industrial privatization between the nationalists and liberals in Kyrgyzstan. Though Kyrgyzstan is primarily an agrarian economy, an alarming amount of tension is present concerning foreign owned industry. Language purification standards are being debated in the Kyrgyz Parliament. In the 1950's the Duma passed a number of resolutions in attempts of transforming Soviet Republic languages by using a Cyrillic based alphabet. The adoption of the Cyrillic alphabet fundamentally changed the Central Asian Turkic based languages. This served in a dual purpose of dividing the Central Asian peoples by accenting their language differences