Gendering Childhood Essay Example for Free

Gendering Childhood Essay Toy stores are places where the gender of different children is being shaped – be it femininity, masculinity or gender-neutrality – according to the current ideas of society and culture about gender. It is therefore evident that toy stores are actually catalysts to the ongoing ideas about a certain kind of gender. In terms of gender-neutral toys, toy stores can be seen as a channel for interaction or equality between the sexes, although this is only seen some of the toys intended for toddlers and teens, and the toys that are digital/computer-based such as educational toys and consoles. In most toy stores, there are clear divisions and may even be separated and placed on opposite ends of the store. There are also sections where it is not clear whether or not the intention is for either gender. The toy stores are also divided depending on the age of those who are going to buy them. Usually, the age is progressive as one goes deeper into the store from the most simple of dolls and balls for one-year olds to the complex digital, computerized toys that can span from the age of seven and up. Looking at the store itself, the general theme of a certain section can actually point to whether or not the section is intended for boys, girls or neither gender. It is seen in many ways including the color scheme of the section, the featured toys and, sometimes, even the salespersons manning the section. However, the toy stores aren’t explicit in their customers in terms of labeling a section either for boys or for girls. Most of the signs in the sections are only implicit in the themes that they take. Gender neutral sections are often filled with toys that are educational and electronic gadgets. Also, gender neutral sections often have neutral colors such as white and silver as opposed to the gendered colors of pink and blue. They are also often seen in the middle of the gendered section. In terms of packaging, some of the toys are explicit in their intended customers by showing either boys or girls playing with the toys they are selling printed on the boxes. Gender neutral toys are often printed with both a girl and a boy on the cover, cooperating or looking very intrigued as they play or tinker with the toys. Other gender-neutral toys have neither child involved but only a feature of the product without any action that denotes the culture’s (in this case, America’s) notion of femininity or masculinity. The colors are neutral – often just a white background – and does not feature any actions that could be seen as either soft (feminine) or hard (masculine). A gendered toy’s packaging, on the other hand, has an implicit message conveyed on the box. Action, competition, adrenaline, and the macho effect are often portrayed in the boxes of boys’ toys in the boys’ section. On the girls’ section, flowers, happy homes, cute and sexy themes seem to dominate the shelves; often, older themes of make-up and fashion are being made as toys, as if pushing for girls to be women at a younger age. Going further into the connection of age and gendered toys, there seems to be a pattern concerning gendering them with respect to age. This is not to say, however, that other toys that don’t fall into these two categories are not gender neutral. There are also toys, most belonging to sports, which are gender-neutral. Toddlers usually have gender neutral toys intended for two things. The first involves amusement in the form of dolls and other soft items that they can chew on, throw, fall on and hit without causing them any harm or danger. Some of these toys may be gendered but many of them are not. The second is to educate them. These educational toys are completely gender-neutral as toy-makers consider the minds of either sex of the children as capable of processing basic information that they should learn, such as knowing what a cow is and what sounds they make. And since toys are not exactly limited to children, some toys that can have adults as audiences as well, such as game consoles and sports-oriented toys, are gender-neutral and are only gendered when it comes to the accessories and other things that they append to these toys. Some examples include the game cartridges. Because of gendering of the majority of toys in the formative years of the child, the idea of femininity and masculinity are instilled in society in an ongoing cycle. The current society’s ideal of masculinity are seen instilled in children in the early stages, dictating and instilling ideas on how girls and boys should be and how they should grow up to be. This forces them to conform to society’s current ideas of them aside from possible biological and other external influences that dictate children from their earliest years. Although gender preference may change in the later years, the influence of toys given to children – even if it is â€Å"feminine† toys given to boys – is a factor in how these children grow up to be.

Animal Cruelty effects and relating laws

Animal Cruelty effects and relating laws Different types of animal cruelty have ee around for many years. Laws relating to animal cruelty vary from state to state. As of 2009, about forty-six states  have some felony provisions in their anti-cruelty and/or animal fighting laws (Wisch, 2005). As time passes and new things are being invented, people seem to loose interest in their pets. Even though people use animals for their testing/experiments, there are other ways to get a solution to something. Scientist and many others, find it easier and safer to test on animals than to test on other possible sources. They test products such as makeup, and cologne. They also use animal fur for designer clothing other types of fashion. Innocent animals are being used for useless products that we can live without. Many animals die due to different types of crucial testing. They suffer by going through several procedures. The goal is not to patch up ailing people but to use the human tissues in place of mice, dogs or other lab animals for testing new drugs, cosmetics and other products (New York Times, nd). With the donation of human cells, animal testing will be reduced. This way is safer can be both suited for animals and humans. If the animal- rights movement had a bible, it is Singers 1975 book, Animal Liberation  (New York Times, Jan. 15, pg 30).  Singer calls many of the attitudes human beings have toward other animals speciesism, a concept which can be found throughout history ( Gargaro, 1991). Humans are just like animals as far as feeling pain. Eight billion animals are killed each year in this country for food. More than a thousand animals are killed and shipped to groceries stores to be bought. Slaughtering of cows, pigs, and other animals, happen everyday because consumers keep purchasing meat. Animals on todays factory farms are kept in crowded, filthy enclosures and denied everything natural and enjoyable to them. Most of them have no legal protection from cruelty that would be illegal if it were inflicted on  dogs  or  cats. There are some fruits or vegetables that can give the same protein as meat. The  Humane Slaughter Act  requires that animals be rendered unconscious with one swift application of a stunning device before slaughter.  Animals in slaughterhouses can smell the stench, hear the sounds and often see the slaughter of those before them. As the animals struggle from fright, the human workers who are pressured to keep the lines moving quickly often react with impatience towards the animals.   Numerous cases of deliberate cruelty have been reported including workers who took sadistic pleasure from shooting the eyes out of cattle, striking them in the head, and electrically shocking them in sensitive areas of their bodies. As for the chemistry of the central nervous and endocrine systems, there is no difference between humans and other animals. All free-range, factory-farmed, egg-laying, dairy-producing, or wool-bearing animals that dont first die from disease are trucked to the slaughterhouse.   To minimize costs, animals are crowded and must live in each others excrement.   They are exposed to extreme weather conditions in the open trucks.   Shipping fever, which can be fatal, is common in cattle transported long distances to the feedlots, the stockyards and then the slaughterhouse (Compassionate Action Institute, nd). Animal cruelty can be either deliberate abuse or simply the failure to take care of an animal. Either way, and whether the animal is a pet, a farm animal, or wildlife, the victim can suffer terribly. People with emotional problems may beat, shoot, or stab animals or set them on fire. Neglect is not giving an animal the right food, water, shelter or vet care. Their misery goes on for so long; animals who die of neglect can suffer just as much as animals who are harmed on purpose. All U.S. states have animal cruelty laws, and 47 states treat some forms of abuse as felonies.  Farmers  and  researchers  can do cruel things to animals that other people cant do legally, but all states have some protection for pets like dogs and cats. There are different cases in animal cruelty, for example cockfighting and dog fighting. Animal cruelty has not gone away. In Brea, California, 85 children, ages ranging from kindergarten through 12th grade, witnessed a cow being slaughtered at Carbon Canyon Christian School, according to PETA Action Alerts. The rational for having the students witness this cruel act was that they could see this act, instead of only experiencing it through the books they had read during the year. Chances are if an animal is being abused and there is a child in that household, then the child is also being abused. Chances are that a child abus ing an animal can grow up to be someone who commits other violent crimes. Studies also found that a history of animal abuse was found in 25% of male criminals, 30% of convicted child molesters, 36% of domestic violence cases and 46% of homicide cases (The National Animal Abuse Registry, nd). While prosecution of animal cruelty cases is generally considered the exclusive purview of law enforcement, veterinarians who routinely examine and treat sick and injured animals occupy a unique role in the legal process of identifying cruelty and bringing its perpetrators to justice. People engage in animal cruelty, otherwise known as animal abuse, in every city throughout the world. There are many reasons why people mistreat animals some individuals act on sadistic desires others act unintentionally, harming animals with their carelessness. But the true abuse is systemic, involving the choices we make as a collective. Animals are used as dummies because people think they arent harming anyone by doing so. In the past few years, organizations and individuals have been using the power of the internet to spread awareness of animal cruelty facts a great sign considering animal abuse will only continue on a massive scale until enough people come face-to-face with the statistics. To fight this abomination, activists, scientists, authors, lawyers, and politicians have sacrificed their valuable time and money, occasionally their lives, to save suffering animals. With gratitude to those who accumulate animal cruelty facts and educate the populace, people are finally ta king notice of suffering animals and the mistreatment they undergo.

Anysys Fluent Simulation Of Turbulent Flow Engineering Essay

Anysys Fluent Simulation Of Turbulent Flow Engineering Essay The characteristics of fluid flow with sudden expansion in a 1:2 diameter ratio pipe are investigated using ANSYS Fluent. Results show fluid re-circulates just after expansion, length of recirculation zone approximates to 0.35m. Velocity, turbulence intensity and pressure vary along pipe length in accordance with Bernoullis principle. Influence of change in turbulence models on accuracy is also investigated with the Reynolds Stress model providing the relatively best fit although other turbulence models (realizable k-ÃŽÂ µ and SST k-à Ã¢â‚¬ °) provide reasonably close fitting models. Results were checked for mesh independence and validated. Computational Fluid dynamics (CFD) involves computational simulation of fluid flows in different situations employing numerical solution of basic flow equations e.g. the continuity equation and other equations over a discretized unit reference (Versteeg, and Malalasekera, 2007). The usage of CFD transcends the traditional scope of chemical engineering profession into wider areas such as oceanography, biomedical engineering electrical circuitry, etc (Fairweather, 2011). Sudden expansion in pipes involves fluid flow from a smaller hydraulic diameter to a larger one. Flow separation usually occurs in a sudden expansion scenario, where a part of the fluid flows in opposition to the main fluid flow. This are called eddies, and are strong contributors to the irreversibility of practical flows as energy is dissipated by this eddies. Thus it is of great significance to be able to model eddies in a sudden expansion flow adequately and observe the characteristics of this recirculation zone (efluids, 2011; Gharegbagi and Ali, 2011; Mahmud, 2011: Roy, et al 2010). Sudden expansion is a simple looking but intriguing case of fluid flow in pipes. Sanmiguel-Rojas (2010) implies that not many significant studies have been done on instabilities encountered in steady, turbulent, sudden expansion fluid flow with respect to spatial structure of piping with D2/D1 = 2. However, previous remarkable work in this field includes Roy, et al (2010) and Mansoori and Bazargan-Lari (2007). Examples of scenarios in which the above phenomenon occurs include; Flows into a tank, oil drilling and extraction, plug flow reactors, combustion engines, aerodynamics, etc. Software ANSYS Fluent is a commercial CFD package that models flow via the finite-volume method (a variation of the finite difference method) created by the company Fluent (now part of ANSYS Inc.). Pre-processing of the case study (meshing) was done on Gambit which comes along with Fluent (now ICEM). The version of Fluent employed in this report is 12.1 (CFD-online, 2011; Weidner, 2011; ANSYS, 2009). This report covers the Reynolds Average Navier-Stokes (RANS) modelling of turbulent flow with sudden expansion in a 1: 2 diameter piping, using the pressure based solver and the second order upwind difference scheme in ANSYS Fluent. Effects of changes in turbulence models on computational time, and accuracy would be examined, visual plots would be used to describe and analyse modelling results. SIMULATION METHODOLOGY Fig 1: diagrammatic representation of simulation process (Fairweather, 2011) Nature of Fluid flow under consideration Calculating the Reynolds number of the flow helps to determine the nature of the flow. At Normal Temperature and pressure (P = 101.325 kgm-2, T = 288.16 K) Generally it is accepted that flows with a Reynolds number (Re) > 4000 are turbulent in nature. Therefore it is established that the flow under consideration is a turbulent flow Reynolds-Averaged Navier Stokes (RANS) RANS involves the time averaging of the equations that govern turbulent fluid flow to capture information on variations that occur on a minute scale while avoiding horrendously lengthy computation times. RANS represents variations as a mean such that ; ; ; and P RANS is employed in obtaining the equations that were numerically solved in this report assuming constant velocity and viscous flows (Fairweather, 2011). Geometry: The geometry consists of two pipes of diameter ratio 1:2 joined together through which fluid flows with no bends as shown below Fig 2: geometry of pipe showing mesh grid/mesh discretization Governing Equations Continuity equation: Momentum equation (x-direction only) Where:; ; ; ; ; ; TURBULENCE MODELS Realizable k-ÃŽÂ µ model The k-ÃŽÂ µ model is a two equation model that assumes a linear relationship between Reynolds stress and rate of strain. It has the advantages of fast computation time, wide usage and extensive validation. However, it predicts badly the length of eddies for complex flows. The realizable k-ÃŽÂ µ model is an update to the model based on observed strengths and weaknesses of the standard k-ÃŽÂ µ model (Fairweather, 2011; ANSYS, 2009). Below is a mathematical representation of the standard k-ÃŽÂ µ model Where: ÃŽÂ ¦ = k or ÃŽÂ µ; SÃŽÂ ¦=source term for k or ÃŽÂ µ; Sk= G-à Ã‚ ÃƒÅ½Ã‚ µ (production rate of k-destruction rate of k); SÃŽÂ µ= (C1G-C2à Ã‚ ÃƒÅ½Ã‚ µ)(ÃŽÂ µ/k) = (production rate of k-destruction rate of k) ; N.B. for this simulation: ; and SST k-à Ã¢â‚¬ ° model The k-à Ã¢â‚¬ ° model is also a two equation model based on the Wilcox k-à Ã¢â‚¬ ° model. It is suitable for wall bounded flows and free shear flows as it performs low Reynolds number corrections, computation time is relatively fast and accuracy is better than the k-ÃŽÂ µ model in most cases. à Ã¢â‚¬ ° is specific dissipation rate and is analogous to a ratio of ÃŽÂ µ/k. The SST k-à Ã¢â‚¬ ° model is an improved version of the standard k-à Ã¢â‚¬ ° model (ANYSYS, 2009). Reynolds Stress Model This is a very rigorous model, with seven equations unlike the preceding 2-equation models. It provides more accuracy where other models are faulty e.g. impinging flows and can predict fluid flow for a lot of cases closely without any dedicated / individual adjustments. However, computing costs are large (Fairweather, 2011) The first six equations of the RSM model can be condensed into the equation below Where: ; ; ; The seventh equation (turbulence dissipation rate) is N.B. in this simulation: ; and Numerical methods The discretization employed is the finite volume method. It is a variant of the finite difference method. This scheme splits up the domain into discrete control volumes over which the control equations are resolved using a truncated Taylor series expansion. Finite volume method is the most established of Discretization schemes in CFD modelling. Convective fluxes were evaluated with the second order upwind-difference scheme (Fairweather, 2011; Versteeg, and Malalasekera, 2007). Boundary conditions Table 1: boundary conditions for numeric solution (adapted from Versteeg, and Malalasekera, 2007) Realizable k- ÃŽÂ µ model SST k-à Ã¢â‚¬ ° model Reynold Stress model Inlet k = 0.01148438 m2s-2 ÃŽÂ µ = 0.02888982 m2s-3 k = 0.1148438 m2s-2 à Ã¢â‚¬ °= 27.95085 Rij = ÃŽÂ µ = Outlet ; ; ; Interior k = 0 ; ÃŽÂ µ = 0 k = 0 ; à Ã¢â‚¬ ° = 0 Rij = 0 ; ÃŽÂ µ = 0 Walls law of the wall Law of the wall Wall functions Convergence criteria and levels For all the equations solved by each model, a uniform convergence criterion of 1.0 x 10-4 was used for every equation solved. The value represented an informed compromise between acceptable accuracy and realistic computation time (ANYSYS, 2009). It is worthy of note that for the RSM model, this relatively stringent criterion caused the number of iterations to exceed 14,000 without any obvious improvement in results as shown in fig 2. Therefore a cap of 4,000 iterations was placed on the RSM calculations. Results show there was no ensuing negative impact on accuracy of numerical solution. Fig 3: Iteration length for RSM model showing Mesh Independence test The table below shows that results from the modelling experiment are similar and essentially the same within three (3) decimal places of precision irrespective of mesh size employed. Also since assurance of mesh independence cannot be guaranteed by mere reduction in cell size (Sloan et al, 1986), an attempt was made at adaptive meshing to attenuate important flow variations and phenomenon with the same results obtained. Table 2: Grid/Mesh independence of simulation Gambit Mesh/Grid size Volume of unit cells Mass flow rate at inlet [kgs-1] Mass flow rate at Pressure-outlet [kgs-1] Error Percentage Difference (%) 5 439,993 0.016809944 0.016809996 -5.22E-08 3.09 x 10-4 7 163,311 0.01678467 0.016784551 1.19E-07 7.08 x 10-4 10 55,182 0.016728994 0.016729204 2.1E-07 1.255 x 10-3 10b 100,693 0.016728994 0.016728895 -9.9E-08 5.9 x 10-4 15 16,750 0.016609019 0.016608695 -3.24E-07 1.95 x 10-3 N.B. 10 b means mesh size 10 with boundary layer mesh added (adaptive meshing) Grid optimization (Mesh finesse Vs Time trade off) The greater the volume of unit cells in grid per geometry, the better the accuracy of numeric analysis. However, within the scope of grid independence, results are relatively uniform irrespective of mesh size. The cost of finesse of grid is computation time could be noticed with the case of mesh size 5 (439,993 cells) which took almost forever to compute using the RSM model and had to be terminated. Thus mesh 10 (55,182 cells) and 10b (100,693 cells) were employed for analysis with other mesh sizes serving as validation checks RESULTS AND ANALYSIS Part 1 Taking a close look at flow close to the walls of the pipe, we see the effect of sudden expansion resulting in backflow of fluid creating velocities in the opposite direction (red box). Recirculation zone is approximately 0.37m in length. We also can see how the fluid adjust to changes in geometry with a sharp rise velocity to fill the voids created by liquid moving backwards then a gradual decrease as pressure pile us towards the exit of the pipe Fig 4: velocity variation along length of pipe close to the walls showing effects of recirculation Fig 6 shows the variation in turbulence intensity. It can be seen that the flow becomes more turbulent around the recirculation zone with dead (stagnant) flow occurring just at the corners of the pipe. Fig 7: displays the total pressure variations in the pipe. It can be noted that sudden expansion causes a drop in total fluid pressure. Fig 8 shows the radial velocity and profile. It can be noted that velocity variation in the radial direction is minimal, which is typical of plug fluid flow depicted by fig 5. Fig 9 is a streamline plot of axial velocity, velocity variation along the axial direction is more dominant than in the radial direction, also worthy of note is the length of the recirculation zone (black box) and the reattachment zone. Fig 5: stages of flow development at different positions on pipe length Fig 6: Turbulence intensity profile of fluid along length of pipe Fig 7: Total pressure profile of fluid along length of pipe Fig 8: Radial velocity profile of fluid Fig 9: streamline plot of axial velocity of fluid Part 2 Fig10(a-c) shows axial velocity profiles for different turbulent models in order of increasing complexity (realizable k-ÃŽÂ µ à ¢Ã… ¸Ã‚ ¶ SST k-à Ã¢â‚¬ ° à ¢Ã… ¸Ã‚ ¶ RSM). Curves get smother showing a more gradual response of the fluid to changes and also approach exact solution, as model complexity increases. However, all the essential features of the fluid flow are well represented by all models. Fig 11(a-c) displays turbulence intensity variations, more variation details are captured as model increases in complexity. Worthy of note is that the SST k-à Ã¢â‚¬ ° model provides a more detailed picture of turbulent intensity variation in reference to the other models picking up intensities as low as 5.42 x 10-5 %, while the realizable k-ÃŽÂ µ picks up a minimum of 0.336% and RSM 1.45% Fig 12(a-c) shows streamline plot of axial velocity, though length of recirculation zone remains approximately the same the representation of velocity magnitude in recirculation zone varies visibly for each model. Fig 13(a-c) is the radial velocity profile; the SST model indicates larger radial velocities along pipe length than both than both the realizable k-ÃŽÂ µ and the RSM models. For all models radial velocity variation is dominated by axial velocity variations Fig 10a: k-ÃŽÂ µ model Fig 10b: SST model Fig 10c: RSM model Fig 11a: k-ÃŽÂ µ model Fig 11c: RSM model Fig 11b: SST model Fig 12a: k-ÃŽÂ µ model Fig 12b: SST model Fig 12c: RSM model Fig 13a: k-ÃŽÂ µ model Fig 13b: SST model Fig 13c: RSM model VALIDATION OF RESULTS For CFD, convergence of numerical iterations does not really count for much as Versteeg and Malalasekra (2007) put it results are at best as good as the physics embodied in it, or at worst as good as the skill of the operator. Thus, validation of results becomes extremely important. The results obtained herein would be validated thus: Bernoullis equation For an ideal fluid flow Bernoullis equation enables us to calculate the velocity at any point in the pipe (assuming constant flow rate, and negligible friction losses). Therefore we can validate output velocity from fluent using this principle (Roymech, 2011). Where vin = 1.73855 ms-1, P1= 101.325 kgm-2, P2= 101.325 kgm-2, g = 9.81 ms-2; à Ã‚  =1.225 kgm-3; z1 = 0.1m; z2 = 0.1m; Therefore Mass flux variation results from Fluent The third mechanism for validation will be the CFD package fluent itself. Analysis of the computation results as presented in table 4.0, show that value of errors resulting residuals is very low (less than 0.0095%) indicating conservation of mass during numerical calculations which lend credit to suitability and accuracy of model. Table 3: comparison of percentage error of each model MODEL/mesh volume K-EPSILON (%) SST K-OMEGA (%) REYNOLD STRESS (%) 5 0.000309 0.00352 N/A 7 0.000708 0.004468363 0.000673233 10 0.001255 0.007867 0.001124 10 b 0.000153 0.00258 0.001488 15 0.00195 0.000783 0.00927 N.B. 10 b means mesh size 10 with boundary layer mesh added Research journals In addition to the above validation processes, the results of modelling experiment reported in this work were compared with previous research works such as (Roy, et al 2010), (Mansoori and Bazargan-Lai 2007) and (Teyssandiert, 1973). Results obtained corroborated foregoing analysis and results obtained it the above mentioned papers. CONCLUSION In summary, CFD modelling of sudden expansion flow in a 1:2 diameter ratio piping posses the following characteristics. Sudden expansion in pipe flow results in local pressure losses Flow fully develops into plug flow before exit at outlet and majority of the variations occur axially along reactor length Recirculation of fluid occurs after sudden expansion for a lengthspan of approximately 0.35m along pipe Viscous effects along wall boundaries help dissipate energy of turbulent eddies The realizable k-ÃŽÂ µ model predicts the size and strength of recirculation zone poorly, but as flow develops into plug flow, the models accuracy remarkably improves with reference to the other models tested. Turbulence models become better with increase in complexity of model from k-ÃŽÂ µ to SST k-à Ã¢â‚¬ ° to RSM. Ability of other models to better the k-ÃŽÂ µ model in recirculation zone prediction can be attributed to embedded corrections for boundary layer flow, turbulent kinetic energy and dissipation rates.

The Nature of Loyalty Essays -- English Literature Essays

The Nature of Loyalty In the play King Lear, Shakespeare presents the reader with many negative views of society, and of human nature. One of the few bright spots in the play is Kent, a very loyal and honest man. Through Kent and his actions, Shakespeare shows the reader the nature of true loyalty. Kent's nature is evident from the very first time he talks to Lear. Lear has begun to detail his disappointment in Cordelia, and announce that he will not be providing her with a dowry. Kent interrupts Lear's speech with a cry of "Good my liege" (Shakespeare 17). This is a very risky move on the part of Kent, as he knows that Lear may not be in a rational state of mind, and may take any disagreeing with him as a challenge. Through this, Shakespeare shows the reader that a truly loyal character will not fear the consequences his actions. Shakespeare reinforces this point later on in the play when Kent disguises himself to aid Lear, even though he is aware that if he is found the penalty is to be death. Kent expresses the extent of his loyalty when he conveys the thought "Royal Lear, Whom I have ever honoured as my king, Loved as my father, as my master followed, As my great patron thought on in my prayers"(Shakespeare 17). With this statement we see the type of dedication that is required to someone for true loyalty. Kent is loyal to Lear not only as a king, but as a father and a master. Kent is quite willing to acknowledge that he is less than Lear. Through this speech t...

Kofi Annans effects on Canada trip :: essays research papers fc

Introduction Mr. Kofi Annan is, I feel, one of the most important people in mankind today. He is the Secretary-General of The United Nations. Last March, he came to deliver a speech on Canada’s position in the world. He thanked and congratulated us on what we have done in the world. He also admits that more needs to be done by rich nations like us. This I feel will spark some controversy because I feel Canada has done enough for the world and the UN should be satisfied with their efforts. I feel Mr. Kofi Annan’s speech will inspire and motivate the rest of The United Nations (it’s countries) and even us to keep committing or even add even more to what each and every one of us do. The proposal by Mr. Kofi Annan may bring many different advantages in helping our mixed up world. First, I feel it may get countries like the USA to get up off their stubborn behinds to start helping other nations instead of calling war on every one of them. The USA may feel that they are slowing or stopping terrorist activities worldwide, but they are only increasing the number of terrorist activities since they declared war on terrorism. They decide to concentrate places where there isn’t very much terrorist activity or even any hostility. Places like Afghanistan or Iraq may have had militants but they were not an immediate threat to anyone. They should have occupied places where help is needed most like in the Middle East where clashes between Palestinians and Israel h ave been numerous and brutal to this day. Maybe by listening to the speech the USA will see that there are other ways of helping the world besides bombing anyone they don’t like.   Ã‚  Ã‚  Ã‚  Ã‚  This speech may let Canada know that they’re role in the world is greatly appreciated which may lead to a greater participation with The United Nations and other poorer nations. We have been an outstanding part of the development of many developing nations such as Afghanistan, Iraq and some African nations. When we realize that we had not been just making our selves look good politically, we were making a huge difference. I can just see in the future Canada getting world support in the event of a crisis just as we have aided many others. I can just see the Chinese, the Russians the Germans, the French and the English running to our aid in the event of a disaster of any kind.

Evolution of globalization

In 1492 the process of globalization began when Christopher Columbus unintentionally â€Å"discovered† the â€Å"new world†. The   cultures   of   the Nahua, Inca, Maya, and Spanish   peoples during the contact and conquest periods (1400s-1600s) was one of the factor that led to globalization.   The different   cultural, economic, social, philosophical, and political systems of these peoples, both before and after conquest  Ã‚   cast an shadow of   these cultures, though conquered, shape the Spanish-American colonial system as it developed in these regions. The blend of different civilizations: The present linguistic situation in ‘Merida’ has engrossed its roots from the pre-colonial period of Mexico. The first   Crenellation   took   place   during the final voyage of, Christopher Columbus in the year 1502.   When his ships entered   Spain   the people over there didn’t know they were listening to the Mayan language. The first Mayan word they heard was â€Å"turquin† which translates to gold and money as wealth was the main goal of Christopher’s expeditions. Two Spanish explorers who were stranded in Mayan land   were     later found by conquistador Cortes . One of the stranded explorers was Aguilar who served as a interpreter between the two civilizations. Later ‘castellano’ language was developed and till now it is in use. The two entirely different civilizations was plunged as thick roots into the nation. Castellano Vs Maya-Yucateco : The new linguistic politics began with the catholic missionaries in the sixteenth century The Spanish priests had to learn the language of the pupils who were mostly Mayans. Formal studies of Maya- Yucateco   was done and the first dictionary was brought out in 1546. The colonization of Yucatan   was mainly   because of   the Mendicant   Landa. The learning of Maya-Yucateco continued until the eighteenth century . For many reasons there was little teaching of ‘castellano’ language to the Mayans . Linguists have divided the variations spoken by Mayans into 30 different languages. They are all included in generic term ‘Maya’. Discrimination: The language was one of the factor that     divided people from the globalization. There were the people who supported the Mayan literature and some saying that ‘castellano’   Ã‚  was something uncontrollable and inevitable, the product of modernization. Discrimination arouse for the Mayans in Merida. They were denied access to certain places and discouraged from being in others. This is a situation that is still in the existence. Mayans developed a passive resistant syncretism to the spiritual conquest that was imposed upon them. Though cultures accepted military defeat, but in an effort to keep some semblance of former lives pays a service to the Spaniard religion, still practicing the hated idolatry in secret. While the conquerors were assimilating Mayans, the Mayans were assimilating the conquerors religion.this resulted in the extension of the interrogation by Spaniards to the new world in   paradox   of     Christianity   at the time. Conclusion  Ã‚   : The evolution invoked by Christopher Columbus led to globalizationIn turn it resulted in a revolution that brought discrimination Until now it continues to be the present situation.   The endless †¦   

Living with Strangers Analysis

B. Living With Strangers In 2011 8,244,910 people were living in one of the United States’ most famous cities: New York. New York has the highest population density in the United States with over 27000 people per square mile and it is estimated that 200 languages are spoken in the city. In a city with so many people, different cultures, and languages converts may have difficulties with growing accustomed to a city full of strangers. The American novelist and essayist, Siri Hustvedt, debates in the essay â€Å"Living With Strangers† from The New York Times, 2002, the complications and challenges an urbanite must overcome in a large city’s society.The main theme in the essay is the ability to show humanity in a city full of strangers. In this essay I will analyse and comment on the essay â€Å"Living With Strangers†. By way of introduction Siri Hustvedt describes how everyone in her hometown, Minnesota, greeted when they met even though it was somebody they did not know. The author quickly moves on to an anecdote from when she first moved to New York. The anecdote describes how she in her apartment is a witness to her neighbours’ private acts such as a heated argument and walking around in underwear.Even though she sees and hears these intimate moments she does not know the people around her and therefore she is â€Å"living with strangers†. What Siri Hustvedt unintentionally experiences in her apartment may seem transcendent but at least her apartment’s walls protect her from a confrontation with the people she is overhearing. These walls cannot protect her in public and Siri Hustvedt finds herself in intimate contact with people she does not know â€Å"In my former life, such closeness belonged exclusively to boyfriends and family. † (Ll. 6-17) To survive these transcendent experiences the New Yorkers follow the unspoken law â€Å"PRETEND IT ISN’T HAPPENING†. Siri Hustvedt tells three stories where either she or someone she knows has experienced the pretend-it-isn’t-happening law. The first story is from her friend who had just arrived to New York when a lady wearing only a flimsy bathrobe entered the bus he was on. In a smaller city the almost naked woman would have drawn attention to herself, but not in New York. Not even when she started yelling about her token, the New Yorkers reacted.Siri Hustvedt’s friend did, however, react because he was new in New York and therefore had not learned the pretend-it-isn’t-happening law. The second story is Siri Hustvedt’s own from about a year ago. She was in a train where a man started yelling about a very sore subject for New Yorkers: 9/11. He said it was God’s punishment for their sins. Siri Hustvedt describes the episode as uncomfortable: â€Å"I could feel the cold, stiff resistance to his words among the passengers, but not a single one of us turned to look at him† (ll. 3-35). In thi s story the unspoken law is very clear. If the man’s statement had been said in the news or written on the Internet it would probably have created a big and abrasive discussion, but because it was in public the unspoken law overpowers the urge to speak up. Siri Hustvedt’s last story happened only a couple of weeks ago from when she wrote the essay. Her husband and she were on a station waiting for a train. They sat at one end of a bench. At the other end of the bench sat a man looking like someone you should avoid.Siri Hustvedt was right in avoiding the man for when he walked past them he spat in their direction and a bit of saliva hit Siri Hustvedt, but her husband and she chose to ignore it. The three examples support the pretend-it-isn’t-happening law. Siri Hustvedt frequently uses of adjectives makes the examples seem realistic to the reader. That the stories are from Siri Hustvedt’s point of view gives a personal connection and therefore she makes us e of ethos, which makes the reader able to relate to Siri Hustvedt. Also the fact that the three anecdotes had happened over a period makes it relevant.So far the essay has had a critical view on the urban living. Siri Hustvedt has by negative adjectives and adverbs, such as howling, shocked, ashamed, cold, stiff, tired, empty, hostility, and terribly, made the urban living seem lonely and at some point horrifying. In the third and final part of the article Siri Hustvedt discusses when and what will happen if people do not follow the pretend-it-isn’t-happening law. â€Å"Taking action may be viewed as courageous or merely stupid (†¦)† (l. 53) this statement is once again supported my anecdotes from the urban life.The first story is by Siri Hustvedt’s husband who was a witness to a man being threatened on his life because he asked another man to put out his cigarette. Even though it was only a verbal attack it can have horrible consequences because, as Siri Hustvedt puts it â€Å"it carries no moral insight into when to act and when not to act† (ll. 72-73), you will never know when you are being attacked for not obeying the unspoken law. Siri Hustvedt moves on to telling another story, which contrary to the previous story has a happy ending.Her daughter, Sofie, was riding the subway when a man loudly declared his love for her. Sofie is a product of the pretend-it-isn’t-happening law and therefore she did as all the other passengers did, she ignored the man. The situation made Sofie very uncomfortable until the passenger next to her broke the unspoken law with a witty remark. This made Sofie feel better â€Å"it lifted my daughter out of the solitary misery that comes from being the object of unwanted attention among strangers who collectively participate in a game of erasure. † (Ll. 3-95) By telling this story Siri Hustvedt gives a new alternative to the pretend-it-isn’t-happening law. The passenger chose to stop being a part of the passive audience and instead he helped the girl. By doing so the passenger does not only make Sofie feel good, but he also proves Siri Hustvedt’s final point, which is that, the pretend-it-isn’t-happening law can also lead to something good. Siri Hustvedt finds the decision whether to act or not exciting. Out of necessity the New Yorkers often choose not to act, but when they do it opens up to another understanding of a person’s personality or another worldview.In Minnesota people greet with the same sense as New Yorkers ignores others presences. Therefore it is not possible to overcome the barrier of strangers in Minnesota, but in New York people become real if they do not obey the unspoken law. Siri Hustvedt begins with a negative and critical view on the urban living, but in the end Siri Hustvedt turns the negative to the positive and a good urban living becomes a decision for the individual New Yorkers. If you choose to overcome the barrier of strangers you will experience a presence of the people surrounding you.