The Impact Of African Dance

The Impact Of African Dance This study aims at pointing out one of the upcoming dances with its origin from Africa which is becoming very popular within its short time of invention. In an attempt to do this, this study will be looking at Roland Barthes arguments on Semiology and Structuralism within the language system and its relation to modern dance. The specific objectives of this study are to determine the level of popularity of Azonto dance and its relating music genre amongst other nationals from other parts of the world, to find out whether Azonto dance has any effect on peoples dancing styles, to find out the level of acceptance of Azonto dance and music to people from different ethnic and national backgrounds, and to identify the way in which people understand the gestures and signs associated to this dance. Dance in Africa is a holistic part of society. It is not truncated or separated as an entity in and of itself. Dance is used to facilitate all phenomena in most African societies (Welsh, 2004:14). The African dance has a lot of variation in terms of the various cultures on the continent as well as the different musical and movement styles which goes along with them. Every dance has its own style and movement which reflects the culture of a particular group or ethnic setting in way. Most of these dances are very communicative and this resemblance is evident in a lot of the dancing styles on the African continent. There are countless dance forms that identify the numerous ethnic groups and cultural differences in styles of the Ghanaian people (wikipaedia). African dances are largely participatory, with spectators being part of the performance. With the exception of some spiritual, religious or initiation dances, there are traditionally no barriers between dancers and onlookers. Even ri tual dances often have a time when spectators participate (Welsh, 2004). Ghana has a lot of traditional dances like the Adowa, Kpanlogo, Agbadza and Damba which are primarily performed as ceremonial dances. There have also been other popular and more contemporary dances like moon walk, slide, creep walk, etc in the past few years. Unlike the traditional dances whose motives are to tell a story or express some idea or emotion, most popular dances in Ghana are performed for fun as social interactions, especially among the youth. However, one particular popular dance which seems to have defied the odds of modern dance in Ghana is the Azonto. This African dance form incorporates complex co-ordinates body movement and non-verbal communication in a rhythmic fashion in very few one-two timed steps. Just like most African dances, knee bending and hip movements are rudiments to dancing it. The dance involves movements of the feet, knees, hands, and hips in rhythmic fashions which can actually be coordinated in a style to communicate a message. Generally, the dance reflects the creativity, intelligence, and rich sense of humour of the Ghanaian people. Background of Study According to Welsh (2004), no dance form is permanent, definitive, or ultimate. Change occurs, but the basic rudiments of dance remains the same. Dance is for all people. One need only recall that dance needs neither common race nor common language for communication; it has been a universal means of communication forever. The dance, which is usually performed with an accompanying smile, evolved from the combination of several local dance moves that originated from Ghana during the early 2000s. There are different stories about the origins of Azonto and its subsequent popularity. One story about the Azonto dance has it that it started somewhere in Bukom, Chorkor and James Town (all being suburbs in Accra) where it was first called Apaa (work for pay). It was a form of dance that represented movement activities like ironing, boxing, driving, washing etc. Another source of information has it that the term Azonto was first used by students of the Senior Secondary Schools to mean life (or the hardships of life abraabo) (ModernGhana.com). Features of the Kpanlogo dance, the traditional dance of the Gas, can also be seen in the Azonto. The same goes for the Gawu dance, an adopted dance of the Ewe but originally from Togo. The dance has evolved with the fast pace dance culture of modern West Africa. The dance was made popular by the Ghanaian football star, Asamoah Gyan in his goal scoring celebrations for his club and for the Black Stars (the senior national football team of Ghana), especially during the 2010 World Cup in South Africa (ibid). Currently, the dance is continuously evolving with complex dance styles and movements. The latest dance craze has become so popular that it now dictates the rhythm of hip-life music (which is a contemporary genre of music in Ghana which fuses the traditional hi-life music with the modern hip-hop music). The commercialization of this dance has made Hip-life musicians include Azonto in their music lyrics and video clips. The dance is very popular among the youth and can be performed by anyone regardless of gender or ethnicity. With traditional dance facing serious threats of decline especially among the youth, Azonto represents a combination of modern and traditional elements. Azonto epitomizes Ghanas ingenuity and originality through the spirit of dance (World Press). It primarily embodies sociability and socializing. It was stated on ModernGhana.com that the dance is spreading fast in the USA, U.K and other parts of the world with large populations of Ghanaians. Even Prince Williams is said to have deeply fallen in love with Azonto and he dances it at any opportunity he gets (Source). Ghanas Azonto dance been rated as one of the top 10 African dances to have gained global stature either recently or, in the case of Soukous, in the last 40 years (MyWeku). The Azonto dance has threatened to eclipse the success of some of Ghanas famous exports like cocoa, gold and its exciting brand of football. The Azonto is still going strong, and was last seen on Londons Oxford Street (ModernGhana.com). Methodology A qualitative research approach is proposed for this study. Primary data would be used for the purpose of this study through interviewing which would be designed in the light of the objectives of the study. This research will be a qualitative research. Scholarly works of other field of study that will be useful to this research will be used. Print and electronic works such as newspapers, articles and journals will also be used. I also will adopt the use of a case study, although due to the nature of the research, I will not be administering a questionnaire but would conduct conducting an interview, I will strictly base my arguments on past works and use real life examples to achieve my aim and purpose of the study. The sample of the study covers African students currently studying in Cyprus International University. This sample of 20 students where 10 males and 10 females (50% male and 50% female) would be selected purposively from African students with different nationalities. Respondents opinion regarding the effect of African dance and the popularity of Azonto would be collected through the interaction and interviewing session. Dance and Semiology Most of the students were identified as music and art lovers because they all stated their passion for the love and interest in such art. They had all come in contact with different forms of dance styles especially those from their communities and cultures. They stated a common characteristic of African dance being full of energy, interesting, communicative and full of life. Some also thought of African dance as a way of identifying a particular culture. Some students also saw some of the indigenous African dance as being passionate and addictive especially with the tunes that went along with them. They believed dance in general is never full without the presence of a form of music to go along with it, thus, they go side-by-side. We can relate dance as a language from the perspective of Roland Barthes who describes language as a system of signs that expresses ideas, and is therefore comparable to a system of writing, the alphabet of deaf mutes, symbolic rites, polite formulas, military signals, etc. He calls this semiology. Azonto is a communicative dance which is full of signs and symbols, and involves a lot of communication between the dancers and the audience. Barthes states that signs and codes are meant to be historically and culturally specific. If you relate this Barthes concept of sign, and the concept of semiology to dance, you will realise that dance is not a universal language. That there are hidden signs which must be understood in order for a spectator to fully understand a particular dance movement. Azonto as a dance has its origin from some indigenous Ghanaian dances like Kpanlogo (a traditional dance of the Gas) and Gawu dance (an adopted dance of the Ewes). Though the Azonto dance is more of a fusion of other contemporary dance elements, it still has its roots from very indigenous dances from the Ghanaian culture. All these traditional dances involve symbols and signs made by the dancers. Roland Barthes goes on further to argue that material reality can never be taken for granted. It is always constructed and made intelligible to human understanding by culturally specific systems of meaning. These codes and signs are not universally given, but are historically and socially specific to the particular interests and purposes which lie behind them. Azonto as a contemporary dance involves a lot of movements and communication through the use of gestures and hand signs. For instance, a dancer could be making dance movements and at the same time trying to draw the shape of a heart with his/her fingers. This shape could be translated into several meanings depending on the background or culture of the observer. One could just interpret it as a shape of a heart whiles another would interpret it as a sign of love or a way of telling the observer that he/she has a kind heart. So we realize that a sign or symbol may not have the same meaning to the observer upon seeing it. Fernando de Saussure argues that it is not possible to understand individual linguistic signs in a piecemeal, ad hoc or empiricist fashion. He goes on further to say that they have, rather, to be explained by showing how they fit together as arbitrary signs in an internally coherent system or structure of rules and conventions. These signs cease to be arbitrary and become meaningful once they are located within the general structure of the language. Barthes notes that any semiology postulates a relation between two terms, a signifier and a signified a distinction elaborated by Saussure. There is also another term in this, the sign itself (be it linguistic or mythological), which contains the signifier and the signified, in the case of the actions and gestures made by the dancer and the observer who would be in the position to interpret these actions. Strinati (2004; 224) stated that the rise of modern mass communications, and the associated proliferation of popular media culture, therefore become central to the explanatory framework of postmodern theory. What is inferred from this is that the mass media have become so significant for communication and information flows within and between modern societies (and consequently the popular culture they broadcast and promote increasingly defines and channels everyday life in these societies) that they, along with consumerism, have given rise to the characteristic features of postmodernism. We realized that the advent of television and other tools communication tools like the radio has been aiding tools for the popularization of this particular kind of dance. Most of the students either had first contact with the Azonto dance via internet on YouTube, or on television and/or musical videos. We realize that the advent of technology has helped in the awareness and advertisement of this kind of dance across the continent and beyond. This is a reflection of modernity and post modernity in our current cultural set ups. Since the Azonto dance is originally from Ghana, technology has played a very important role in the awareness and public knowledge of this dance. Most individuals across the world heard or saw this dance through mediums like the internet and television. A lot of these enthusiasts learnt their basic steps through these same channels without going to the dances place of origin. Roland Barthes goes on further to say that meaning is not something which is given or which can be taken for granted. It is manufactured out of historically shifting systems of codes, conventions and signs. We realized that the various dance symbols associated to Azonto had its origin from other indigenous dances. This new dance has metamorphosized into a dance where by the dancer can express him/herself freely with personal gestures. Its a dance which has no particular pattern with the exception of fusing some basic dance steps to distinguish it from other emerging dances. Strinati (2004: 101) stated that cultural meanings are not universal, nor are they divorced from the social conditions in which they are to be found. Rather, they present themselves as universal when they are really historically and socially fixed. Conclusion Dance, in general, reflect the way of life of a group of people. It is an essential part of culture. It could carry a message through its gestures as well as it being a medium of communication. More recently, there has been an influx of different dancing styles and patterns which are contemporary forms of ancient and traditional dances from all over the world. The beauty of it all is how individuals embrace these various dance patterns into their own way of dance movements. Africa is the second largest continent in the world and it has a very large number of people who also reflects its pure culture and heritage. Among such traditions of the people on this continent is the uniqueness of every tribe or ethnic groupings own practices. Dancing has been a way of life for almost all these cultures and it is part and parcel of these people. Azonto dance from Ghana is no exception in this context. The dance is quite new and its spreading like wild fire on the world stage where this dance is gaining popularity every minute with the help of the internet especially on YouTube. It has become one of the biggest things to come out of Ghana in which most music lovers and dance enthusiasts identify this country with. It isnt shocking to find yourself nodding your head or tapping your feet to tunes of Azonto or falling in love with the unique movements by its dancers. One easily falls in love with the dance upon seeing it. The dance is one of the easiest to learn and its so unique that you can incorporate your own movements to suit yourself. Azonto is an expressive dance. This means you can tell a story, show your emotions and personalize it. So an individual doesnt have to be afraid to do crazy things with it. Even though you can do this dance with almost any song (well, except classical music), it helps the dancer a lot if he o r she is dancing to a high-tempo up-beat like Afrobeat tunes, pop music or a typical Azonto tune. Dance can be used as a tool to get people closer and also can help in relating to people more easily because they share something common. They have something that can be easily identified with even though they may be coming from different backgrounds or settings. Therefore we dont have to speak the same language or come from the same place before we can get along with others, but tools like dance can be a very effective medium through which people can take away all barriers and make them feel as one because most of the actions of dance is universal and can make people share a common feeling or mentality. A world renowned dancer, writer and scholar in the field of Dance and Black Studies by name Dr. Kariamu Welsh when asked about the future of Africa/Back dance and the direction she saw it moving in the future, she stated that Black Dance will take many directions. As a genre, it will continue to self reflect and redefine itself but it will remain an artistic and creative force for many of us. Black Dance is ancient and it has many stories to tell. These stories will take the form of narratives, abstract works, improvisations, neo-traditional dances, slamming, jamming and other forms that have yet to be imagined. The beauty of Black Dance is that it is a place where new and innovative movements are born. Those creative sparks influence many people and every once in a while they actually inspire a revolution (Glocke, 2011: 263)

Finding Alternatives To Transportation Fuels Environmental Sciences Essay

There is a big planetary involvement in happening options to transit fuels to replace petroleum-based fuels. The possible for biofuels to run into the turning energy demands every bit good as contribute to a decrease in the nursery gas emanations chiefly in the transit sector. Increasing oil monetary values and the uncertainty about continued oil supplies have added more involvement in the thought of biofuels. Most treatment has focused on the advantages of ethyl alcohol and biodiesel production in the US and Europe in footings of: Justifying clime alteration, where biofuels substitute fossil fuels and their related nursery gas emanations. These benefits apply to the bulk of states but for developing states the production and usage of biofuels have extra possible benefits which are: Promotion of rural development by production a locally generated signifier of energy for processing and transit Making rural employment and wealth Decrease of deforestation and land debasement as biofuels besides substitute for the energy current derived from wood Multiple usage harvests can be reallocated for energy or nutrient demands depending on altering local demands and precedences In the current state of affairs were in biofuels are a large precedence policy in many different states. Towards of import issues such as nursery gas decrease, energy security, decrease of poorness and aid to keep sustainable progress biofuels shows good positiveness. However if they are non implemented in the right manner there could be more possible danger and injury than existent good. Were they could stop up doing nutrient deficits, environmental jobs every bit good as increased poorness. The inquiry is what is the best attack to take? 1st-generation biofuels such as sugar cane ethyl alcohol in Brazil, maize ethyl alcohol in US, oilseed colza bio-diesel in Germany, and palm oil bio-diesel in Malaysia are made utilizing consecutive frontward engineering. The basic provender stocks for the production of first coevals biofuels are frequently seeds or grains such as wheat, which yields amylum that is fermented into bio-ethanol, or sunflower seeds, which are pressed to give vegetable oil which can be used in bio-diesel. first-generation-biofuels Fig1 – 1st coevals biofuels Even though most analyses indicate that 1st coevals biofuels have a net benefit in footings of less nursery gas and energy balance they besides have several jobs. Current issues for many 1st coevals biofuels are that they: contribute to higher nutrient monetary values due to competition with nutrient harvests are an expensive option for energy security taking into history entire production costs excepting authorities grants make non run into their claimed environmental benefits because the biomass feedstock may non ever be produced sustainably are speed uping deforestation potentially have a negative impact on biodiversity compete for scarce H2O resources in some parts. Second coevals biofuels use waste biomass and agricultural residue such an illustration being maize chaffs this makes them a more practical solution ( M.B. Charles, P. Barnes 2008 ) . The usage of waste biomass and easy-to-grow feedstock ‘s has a lower environmental impact when compared to 1st coevals biofuel production ( M.B. Charles, P. Barnes 2008 ) . By utilizing specially designed micro-organisms, the feedstock ‘s tough cellulose is broken down into sugar and so fermented. Alternatively a thermo-chemical path can be taken whereby biomass is gasified and so liquefied in a procedure known as ‘biomass-to-liquid ‘ ( E.L. Kunkes, D.A. Simonetti 2008 ) . The 3rd coevals types of biofuels use improved feedstock instead so bettering the fuel devising procedure. Algae is a possible beginning which can bring forth about 30 times more energy per square metre compared to set down harvests ( Anon 2009 ) , harmonizing to ( G. Warwick 2009 ) the procedure in which to pull out the algal oil is non yet up to the best of ability. Fourth coevals type biofuels combine genetically optimized feedstock ‘s which are made in order to capture C with bugs in order to do the fuels ( J. Houghton, S. Weatherwax, J. Ferrel 2006 ) . To guarantee that 4th coevals biofuels are a C negative beginning of fuel the key is the gaining control of CO2 ( ARS National Program 2007 ) .The job on the other manus with this is the deficiency of equal C gaining control.Examples of biofuelsVegetable oil: Lower quality oil is normally used as fuel and comestible vegetable oil is non. Used vegetable oil is going more common in being used into bio-diesel. In order for vegetable oil to be used it must be heated to cut down its viscousness either by electric spirals or heat money changers for efficient combustion.Used_vegetable_cooking_oil Fig 2. Vegetable Oil Biodiesel: In Europe this is the most used biofuel type. By a procedure known as transesterification it is produced from oils or fats and is a liquid similar in composing to fossil/mineral Diesel. Oils are assorted with sodium hydrated oxide and methyl alcohol ( or ethyl alcohol ) and the chemical reaction produces biodiesel fatty acid methyl ( or ethyl ) ester and glycerin. One portion glycerin is produced for every 10 parts biodiesel. Biodiesel sample.JPG Fig. 3 biodiesel sample Bio intoxicants: Produced from intoxicants strictly where the most common being ethanol and least common being propanol and butyl alcohols are produced by micro beings and enzymes through the agitation of sugars or starches which is the simplest method or by cellulose which is more complicated. Bioethers: Bio quintessences are cost-efficient compounds that act as octane evaluation foils. They besides enhance engine public presentation whilst cut downing engine wear and toxic exhaust emanations. Reducing the sum of ground-level ozone, they contribute to the quality of the air we breathe. Biogas: Biogas is produced by the procedure of anaerobiotic digestion of organic stuff by anaerobes. It can be produced either from biodegradable waste stuffs or by the usage of energy harvests fed into anaerobiotic digesters to supplement gas outputs. The solid by merchandise known as digestate can be used as a biofuel or a fertiliser. Landfill gas is a less clean signifier of biogas which is produced in landfills through of course happening anaerobiotic digestion. If it escapes into the ambiance it is a potent nursery gas. Biogas_pipes Fig. 4 biogas pipes Syngas: Syngas is a mixture of C monoxide and H is produced by partial burning of biomass, that is, burning with an sum of O that is non sufficient to change over the biomass wholly to carbon dioxide and H2O. Solid biofuels: Examples include wood, sawdust, grass film editings, domestic garbage, wood coal, agricultural waste, non-food energy harvests, and dried manure. ( Biofuel. 2009 ) . When natural biomass is already in a suited signifier such as firewood it can fire in a range or furnace straight to supply heat or raise steam. When natural biomass is in an inconvenient signifier such as sawdust, wood french friess, grass, urban waste wood, agricultural residues the typical procedure is to densify the biomass. This procedure includes crunching the natural biomass to an appropriate particulate size known as pig fuel which depending on the compaction type can be from 1 to 3A centimeter which is so concentrated into a fuel merchandise.Environmental ImpactsBiofuels being produced may do a figure of environmental jobs such as: Land usage alterations Expansion in agribusiness Changes in agricultural patterns Transportation system of the biomass used to do biofuels Conversion of the biomass into fuels After fuels are made disposal of the staying waste stuffs Over the past few old ages several surveies have shown environmental issues Current analysis shows a great scope of environmental jobs and benefits that vary greatly depending on several factors such as: the type of biofuel the biomass feedstocks and the cultivation methods used the engineering used to change over the biomass into fuel the type of energy used to power the transition the location where feedstocks and biofuels are produced the extent to which a turning demand for biofuels induces alterations in land usage and land screen In the antediluvian times the usage of wood and wood coal were common and liquid biofuels were indispensable in the development of cars and burning engines this shows biofuels are non new. Biofuels chiefly played a portion in poorer states whereas fossil fuels were the chief beginning of energy. Recent involvement has largely been in biofuels of liquid signifier as these can easy replace fuels used for transit without major alterations needed. The difference in monetary value between liquid fuels and solid fuels is extremely wedged due to the convenience of liquid fuels ( FAO 2008b ) . Graph 1 below shows the difference in cost for coal which is a solid and rough oil a liquid over the clip of 50 old ages by looking at the graph we can clearly see the difference in monetary value turning dramatically making 2007 oil costs 12 times more than coal for tantamount energy. oil V coal monetary value Graph 1 – US crude oil & A ; coal monetary valuesFood Vs FuelFor the production of ethyl alcohol sugar cane which largely comes from Brazil and maize which comes largely from the US are used. For biodiesels rapeseed, canola oil, soya bean and oil thenars are used. Since these harvests are besides used for nutrient shows us clearly that there is direct competition between nutrient and biofuel for harvest production this competition is already doing major strain on planetary nutrient supplies. Harmonizing to ( FAO 2008a ) is was recorded in 2007 that merely 5 % of the planetary production of cereals rice, wheat, maize was used in the production of biofuels and the bulk of it was used for direct ingestion for worlds or for carnal provenders. However cereal usage for biofuels is increasing at a much higher rate than that of nutrient usage. Besides it is recorded that from 2006 to 2007 there has been an addition of 37 % usage of maize in the US to do ethyl alcohol ( FAO 2008a ) . From 2006 Brazilian sugar cane covered an country of 7 million hectares half of this country was used for ethanol production and the other half for sugar production. In 2007 the production of sugarcane country was about 10 % of the sum. Most of the enlargement was on grazing land 65 % , 17 % on soya bean and 5 % on maize and orange. Since carnal denseness in Brazil is really low it seems that the loss of about 0.5 million hectares of grazing lands in Brazil is non impacting the meat production. A little addition in carnal denseness can therefore balance out the losingss of grazing land. But so far from what it seems sugarcane spread outing in Brazil is non doing any excess force per unit area on the nutrient monetary values in the state ( Goldemberg J. , S. T 2008 ) . A major job in Brazil is the supplanting of soya bean from Central Brazil by sugar cane in the way of the Amazon part which adds force per unit area of deforestation in the country ( Martinelli, L. A 2007 ) . The potency for competition between biofuels and nutrient production will construct up as biofuel production additions. Even if non-food harvests are used as the feedstock for the biofuels the possibility for competition with nutrient production still exists if the biofuel harvests are grown on land capable for nutrient production ( Searchinger 2008 ) .Emissions of Greenhouse gasThe most recent analyses show a positive benefit on the net nursery gas emanations for the usage of liquid biofuels where there are little differences for corn-ethanol to a significant greater difference for production of ethyl alcohol from sugar cane or biodiesel from palm oil ( Gallagher, E. 2008 ) . Corn used to bring forth ethyl alcohol can hold both a net positive and negative consequence of over 30 % when compared to fossil fuels in conformity to chart below corn-ethanol scope from 12 % to 20 % for the mean net nursery gas nest eggs which is taken from recent analyses ( Searchinger 2008 ) . Most analyses have concentrated on how biofuels have effected nursery gas emanations by concentrating on how much part CO2 plays. Even though CO2 is a major cause of planetary heating there are besides other gases which play a major portion such as azotic oxide ( N20 ) and methane ( CH4 ) . Harmonizing to ( Prather et al. 2001 ) azotic oxide can be up to 300 times greater in its ability to warm the planet than CO2 for an tantamount mass over a 100 twelvemonth mean period. net economy in nursery gas emanations Graph 2 – Net nest eggs in nursery gas emanations in comparing to fossil fuels In dirts, deposits and H2O azotic oxide is created accidentally as a side consequence of bacterial processing of N. The increased usage of N fertiliser is the chief ground of the planetary addition in N2O fluxes where merely some of this moves straight from agricultural Fieldss to the ambiance. Most the flux occurs in downstream aquatic ecosystems which get the N pollution chiefly from carnal waste every bit good as agricultural Fieldss. Overall, about 4 % of the N that human activity introduces into the environment ends up as N2O in the ambiance. Biofuel production is clearly lending to the planetary N2O flux given that biofuel harvests often are greatly fertilized with man-made N fertiliser, largely in industrial states. An of import idea for most analyses of net nursery gas emanations from biofuels is that they merely consider the current degree of production and do non undertake the impacts of land usage alteration that can be an add-on to the spread outing usage of biofuels. In the United States when more land is used for turning harvests for biofuels feedbacks through the planetary economic system can be given to ensue in land transitions which even include tropical deforestation in other states. These alterations in land can hold really harmful jobs on nursery gas emanations and demands to be included in the net nursery balance of the biofuels. For maize ethanol the emanation of nursery gas is doubled compared to firing fossil fuels because of indirect land ( Searchinger 2008 ) . To utilize liquid biofuels for transit might non be the best of thoughts in order to increase energy security or to cut down nursery gas emanations whereas a more efficient usage may be in stationary installations to bring forth electricity or heat. The critical issues for both Greenhouse gas emanations and nutrient production are which land types will be converted to biofuel harvests and the harvests that will be grown. If biofuel production is targeted towards lands earlier converted to agriculture but non presently being used for harvest production such as abandoned farmland the Greenhouse gas and biodiversity effects will be much more positive than if biofuel production causes the direct or indirect transition of natural ecosystems ( Campbell 2008 ) . Harmonizing to the current rating if biofuels are produced in ways that cut down transition of home ground e.g. by using waste merchandises, well increasing outputs, and aiming ruined grazing land and discarded cropland, biofuels could play a positive function in extenuating clime alteration, heightening environmental quality, and beef uping the planetary economic system.Biofuels and WaterCrops and biomass for nutrient or energy need big sums of H2O ( Molden 2007a ) . Water demand at the current clip for harvests is modest but easy this can lift as energy monetary values lift due to increased biofuel production due to concerns over the impacts of nursery gas emanations. This leads to more competition between nutrient and biofuel for land and H2O this will use more force per unit area particularly in H2O scarce countries. There are plenty land and H2O resources to feed the universe but if today ‘s environmental and nutrient tendencies carry on this will take to H2O crisis in many parts of the universe every bit good as many possible H2O jobs unless sufficient policy steps are implemented harmonizing to a recent appraisal on H2O direction in agribusiness ( CA 2007 ) . The H2O demands of energy derived from biomass are about 70 to 400 times more than that of other energy bearers such as fossil fuels, air current, and solar. More than 90 % of the H2O needed is used in the production of the feedstock ( Gerben Leenes 2008 ) .Effectss on aquatic ecosystemsStream flow decrease and ordinance: Reduced watercourse flow and in utmost instances dried up rivers are cause due to H2O backdowns from rivers, lakes and groundwater for irrigation. Some lakes are shriveling because of over extraction upstream illustrations being Aral Sea and Lake Chad ( Falkenmark 2007 ) . Wetland debasement: Wetlands give of import adaptable ecosystem services for H2O resources such as saving of inundation and deposits, groundwater recharge, base flow ordinance, natural filter, biodiversity. Water ordinance and drainage for agricultural intents may be two of the prima causes for loss in wetland countries ( Finlayson and D'Cruz 2005 ) . Water quality: Direct impacts come from fertiliser, pesticide and weedkiller application. Nutrient pollution has of import impacts on the quality of groundwater and river H2O and may ensue in eutrophication of wetlands. Other water-quality jobs relate to the sewerage produced in the production of biofuels. Changes in H2O tabular arraies: Over pumping of groundwater resources taking to groundwater diminution and endangering the sustainability of the resources occurs in India, China, Mexico, western USA and Pakistan, among others ( Shah 2007 ) . Rising groundwater degrees is a major job in with dirt salinization in Australia and other countries. Salts have moved into the surface soils so that big piece of lands of land have become less suited or even unserviceable for agribusiness ( Anderies 2005 ) . Where groundwater is fresh over pumping leads to groundwater diminution but where groundwater is saline and unserviceable for agribusiness, ooze from irrigation leads to a rise in the ground-water tabular array, salinization, and stagnating H2O, therefore rendering land unserviceable for agribusiness. Changes in overflow due to set down usage alterations: The consequence of transition of woods into croplands is really site-specific depending on incline, dirt, rainfall strength and land screen. Little is identified of the possible hydrological impacts of large-scale transition of waste land into jatropha plantations in India, which will increase harvest transpiration, infiltration and shadowing but will diminish dirt vaporization ( Calder 1999 ) . Moisture recycling: Changes in land usage can easy change evapotranspiration rates e.g. from large-scale deforestation and therefore these alterations can change local clime ( Falkenmark 2007 ) .Possible tracts to cut down inauspicious environmental effectsImproved H2O productiveness and better H2O direction aimed at providing a assortment of ecosystems every bit good as less usage of H2O intensive feedstock ‘s can cut down some effects of biofuel systems on H2O resources. These methods are explained in more item below. Less H2O demanding harvests: Sugarcane and maize need a batch of H2O. In the chief sugar cane countries in Brazil, where rainfall is abundant this is non an issue, but in countries with insufficient or undependable rainfall they need big measures of irrigation H2O. Scientist are making experiments with less demanding harvests such as Jatropha in India which can be grown on dry conditions. Increasing H2O productiveness: There is thought into bettering H2O productiveness by cut downing the sum of H2O needed for harvest production and go forthing more H2O for other utilizations such as the environment ( Molden 2007a ) . Such H2O direction patterns include H2O harvest home, auxiliary irrigation, preciseness irrigation, and dirt H2O preservation patterns. Factors outside H2O include betterments in dirt birthrate, control of plagues and diseases, subsidies and better markets. Reuse and recycling of H2O may already be high and sensed losingss and inefficiencies lower than by and large assumed ( Seckler 1998 ) . Pull offing H2O for multi functionality: Many of the H2O jobs come from large-scale monocultures managed for one ecosystem service either agricultural or biomass production. Increased outputs can travel manus in manus with decreased environmental impacts through increased H2O efficiency, improved H2O quality and increased C segregation ( Pretty 2006 ) . Biofuel can give both benefits and jobs to the H2O sector where it largely depends on the pick of feedstock, location of production, current productiveness, predominating agricultural patterns and the manner H2O is managed. With appropriate steps in H2O direction taking topographic point this could greatly cut down the environmental impacts and assist reconstruct debauched ecosystems. This will depend on how successful these alterations in agricultural direction patterns are brought. Multiple attacks to happening originative solutions are needed to guarantee sustainable production of biofuels.Crops for BiofuelEnergy is needed for every life being on our planet it is required for growing, reproduction, care and motive power this energy is provided by workss. The same energy is originated from the Sun which flows from workss through a web of consumers and decomposers and bit by bit returns the bearer molecule CO2 to the ambiance. Another illustration which is more sudden is fires happening of course from buoy uping work stoppages or by the activity of adult male which is chemically similar to the release of solar energy accumulated by workss. Humans every bit good as some other animate beings use workss f or building but worlds have combusted biomass under certain conditions to provide heat for heat and cookery in both stationary and grip. Due to concerns about the expected exhaustion of oil, energy security and high energy monetary values every bit good as planetary warming the hunt for alternate beginnings of energy is due. Chief focal point is to seek energy for transit of liquid signifier which consumes 50 % of entire usage of crude oil. When the first major crude oil monetary value rise occurred in the 1970 ‘s there was a batch of involvement and analysis of energetic efficiency of agribusiness in general where Diesel engines were ab initio designed to run on vegetable oil. The usage of biofuels did non nevertheless continue to increase because the monetary value of crude oil fell every bit good as the force per unit area to besides develop alternate beginnings. The current state of affairs we are in is nevertheless more complex and this is because crude oil monetary values are lifting because the demand exceeds the production. About all renewable liquid conveyance fuel comes from biodiesel and bio ethyl alcohol from a little assortment of harvests. Fuels such as man-made gasolene and Diesel which are besides liquid fuels play minor functions. However biogas, H and electricity which are non liquid conveyance fuels are besides produced from biomass. Bio ethyl alcohol is produced by agitation of glucose and fruit sugar which are merely obtained from sucrose harvests such as sugar cane or sugar Beta vulgaris. Glucose and fructose can every bit good be formed by hydrolysis of starches from grains, tuber harvests e.g. murphy and manioc. Agitation is followed by distillment and desiccation both energy demanding stairss to bring forth fuel class intoxicant. Burning biomass residues or byproducts as usually done in sugar cane refineries can supply some of the energy necessary in treating. Fermentation produces organic co-products that find usage as carnal nutrient. Biodiesel is formed chemically by trans-esterification of vegetable oils obtained by physical and or chemical separation from oilseed harvests. The procedure reduces long branched molecules less appropriate as fuel to short straight-chained fatty acid methyl esters of lower viscousness and higher cetane figure which are more easy combustible. Trans -esterification utilizations methanol or ethanol and produces glycerol as a coproduct.Future options and possible for enlargementTo increase biofuel production ideally harvest country and or harvest outputs will hold to increase by utilizing harvest residues and dedicated energy harvests every bit good as using more efficient extraction and transition methods. At a planetary degree enlargement of biofuel production must be achieved in the context of 50 % addition in nutrient production by 2030 which explains current concern with moral, nutrient security, agronomic, and ecological issues associated with biofuel production ( Thompson 2008 ) . Greater harvest country but largely greater harvest outputs: Table 1 below shows portion of the entire land country and the entire land country which is non limited by incline, low rain autumn and dirt quality ( FAO-AGL 2003 ) . It shows that merely a little sum of land does non see terrible limitation for rain Federal cropping. This analysis does non widen to the productiveness of land with rough bounds. These land usage transitions force of import ecosystem services and openly vie with the lands other possible values. Due to this a sustainable addition must come from better productiveness of bing land. This is possible by site specific combinations of better production methods, better cultivars and in most instances more inputs of fertiliser and irrigation. universe distribution of area.JPG Table 1. Land country non limited by incline, low rain autumn and dirt quality In recent decennaries harvest productiveness has improved by turning possible outputs every bit good as decreases in the output spread by better timelier operations, more fertilisers, better weed and insect and pest control. Breeding of workss has improved altered cultivars, opposition to disease and late with biotech methods opposition to insects and better weed control through weedkiller opposition. If to increase planetary nutrient production will do a terrible bound on land accessible for conventional feedstock production where at the same clip could duplicate the measure of residues available for transition to biofuel. Extra additions in nutrient supply can besides allow irregular parts from grain excess. Handiness of biomass is highly site specific because residues from harvests and woods are non ‘wastes left to decompose ‘ but fodder for farm animate beings every bit good as a web of consumers and decomposers that play a chief portion in the care of dirt birthrate. Residues besides protect dirts from eroding and continue the physical construction of dirt therefore playing a important portion in minimising taint of surface Waterss. Gross remotion is non possible without impact. Crops of the maximal output will lend most. Low giving up harvests which are grown over broad countries in semi waterless zones are more likely to lend really small because the stubble produced is needed to protect dirt and supply fodder for graze animate beings. States that want to see residues and waste biomass as options need regional stock lists of resources that can place countries of exposure to removal, degree of biomass and cost of transit. For biofuel production it is difficult to gauge how much residues would lend in footings of competition and handiness from other energy extraction ironss. Biomass 10 % of the entire universe energy usage is biomass which the following most of import energy beginning after dodo fuel which contributes to 80 % ( FAO 2008a ) . The usage of nutrient harvest to do biofuels will go on to be a job as the universe struggles to increase nutrient production to better feed a turning population that at present includes about 1 billion who are badly ill-fed. Particular energy harvests are non an efficient manner to avoid competition with nutrient production because they besides need land, H2O, foods and other inputs and hence compete with nutrient production. There is no grounds that non-food harvests can be grown good for energy production on land that could non besides grow harvests for nutrient. Important beginnings of biofuel are residues from agribusiness and forestry. Procedures through which this biomaterial will be transformed into fuel are non yet recognized. Similarly the sum of residues that could be sustainably utilised is unknown in most instances. Deciding this issue of handiness of residues is a merely as of import research activity as the development of transmutation tracts. Evidence suggests biofuels can do a modest ( 10 % ) part to national transit fuel supply in states with big cropland resources relative to population size. However, few states will be important exporters of biofuels. Clearly, biofuels can non be a major beginning of transit fuel in a extremely populated and energy demanding universe.Biomass Conversion to Fuels and Electric PowerUsing thermic and biological procedures biomass can be converted into a assortment of solid, gaseous and liquid fuels. The option of procedure and merchandise depends upon the nature of the biomass feedstock and the market where it will be sold. Biomass and wood coal are solid bio energy merchandises. Gaseous bio-energy merchandises can be formed by anaerobiotic digestion ( biogas ) , thermic or supercritical gasification ( manufacturer gas, or syngas ) , or by upgrading of the primary merchandises of anaerobiotic digestion or gasification ( H and methane ) . Liquid bio energy merchandises are derived from physically, chemically or thermally processing biomass: saccharides, syngas, triglycerides and bio oil/biocrude. Liquid fuel production from saccharides chiefly focuses on ethyl alcohol even though butyl alcohol, furans, isoprenes, butyl alcohol and methane seriess is besides possible to be used. Production from triglycerides on the other manus chiefly focuses on methyl esters ( biodiesel ) . Liquid fuels from bio oil and biocrude include a scope of hydrocarbons suited as gasolene, Diesel fuel or even air power fuel. Besides biomass is able to be converted to electricity which so can supply energy for transit. Electrical propulsion as an option to biofuels for transit is possible although this thought is waiting for the battery engineering cost to cut down. In the bulk of markets fuel costs for electric battery powered vehicles are predicted to be a little per centum of that for sparkignition engines powered by gasolene ( Idaho National Laboratory 2005 ) . Graph 3 below compares the intercrossed electric vehicles ( HEV ) , internal burning engine ( ICE ) vehicles and battery powered vehicles charged by traditional electric grids based on coal fired steam power workss are comparable to gasoline fired in footings of both energy efficiency and nursery gas emanations. Conversely electricity from natural gas fired combined rhythm power workss makes battery powered vehicles one of the most attractive vehicle platforms in footings of both energy efficiency and nursery gas emanations. Through Rankine rhythms, Brayton cycles, of fuel cells biomass can be used as an energy beginning to bring forth electricity power. comparing of vehicles Graph 3. Well-to-Wheel Efficiency and Environmental Impact of Vehicle Technologies. These rhythms are given in more item below: The Ranking Cycle – This involves the direct burning of fuel to raise pressurized steam that is expanded through turbine to bring forth electricity ( Singer 1991 ) . Steam power workss contribute most of the electric power coevals capacity in the universe. Rankine rhythm offer the advantage because it has the ability to straight fire coal and other cheap solid fuels. The Brayton Cycle – This produces electric power by spread outing hot gas through a turbine ( Poullikkas 2005 ) . Open firing biomass straight to bring forth the hot gas watercourse has been found to be impractical since caustic compounds carried with the gas watercourse harm the gas turbine. Gasification or fast pyrolysis of biomass to bring forth syngas or bio oil that can be cleaned before firing in the gas turbine is a more capable option. Because of the easiness of works building, potency for high thermodynamic efficiencies when employed in advanced rhythms and cost effectivity in a broad scope of sizes ( from 10s of kW to 100s of megawatts ) makes the Brayton rhythm one of the best engineerings for bio energy. Fuel Cells – These straight convert chemical energy into work hence short-circuiting Carnot bounds for heat engines ( Dicks and Larminie 2000 ) . This does non intend that fuel cells can change over 100 % of the chemical heat content of fuel into work. In pattern the fuel cell transition efficiencies is 35 – 60 % depending upon the fuel cell design. Therefore fuel cells can bring forth significantly more work from a given sum of fuel than can heat engines. However carbonous fuels must foremost be converted to hydrogen before they are suited for usage in fuel cells. When finding the overall fuel to electricity transition efficiency of a fuel cell energy losingss associated have to besides be considered. At comparatively low temperatures 65 A °C proton exchange membrane ( PEM ) fuel cells operate which is suited for automotive applications, job with bring forthing H is the high costs which have limited its commercial application. Most favoured are high temperature fuel cells for stationary power coevals because of chances for heat recovery. Combined rhythm power systems know that waste heat from one power rhythm can be used to coerce a 2nd power rhythm and were developed to better energy transition efficiency ( Williams and Larson 1993 ) . If a individual heat engine could be built to map between the temperature extremes of firing fuel and the ambient environment this would do combined rhythms be pointless. However temperature and force per unit area boundaries on stuffs of building have disallowed this acknowledgment. Combined rhythms use a top-flight rhythm runing at high temperatures and a bottoming rhythm runing on the rejected heat from the exceeding rhythm. Most normally combined rhythm power workss employ a gas turbine for the top-flight rhythm and a steam turbine for the bottoming rhythm accomplishing overall efficiencies of 50 % or more. Power workss based on high temperature fuel cells are on occasion incorporated with both a gas turbine exceeding rhythm and a steam turbine underside cycling to better efficien cy even more.The Car and Fuel of the FutureA figure of alternate vehicle and fuel options are under consideration to ease the menaces of clime alteration, urban air pollution and foreign oil dependance caused by motor vehicles. Approximately 97 % of all energy consumed by our autos, sport public-service corporation vehicles, new waves, trucks, and aeroplanes is still petroleum-based.Alternate Fuel VehiclesAlternate fuel vehicles ( AFVs ) and their fuels encounter two critical jobs. In general they suffer several market place disadvantages compared to conventional vehicles running on conventional fuels. For this ground in order to win they require authorities inducements. Besides they do non supply typically cost effectual solutions to major energy and environmental jobs which undermines the authorities to step in and assist them. Other than the thought of cost effectual decreases at that place have historically been six major barriers to AFV success: 1. High first cost for vehicle 2. On-board fuel storage issues ( i.e. limited scope ) 3. Safety and liability concerns 4. High fuelling cost ( compared to gasoline ) 5. Limited fuel Stationss 6. Improvements in the competition ( better, cleaner gasolene vehicles ) . All AFVs face the increasing †competition † from improved gasoline-power vehicles.HydrogenIt is really dubious that H vehicles will derive a batch of market incursion. A figure of major engineering discoveries and authorities inducements will be needed for them to be successful. US director of Toyotas advanced engineerings group Bill Reinert said in January 2005 that without multiple discovery we wont see many gross revenues of fuel cell vehicles until at least 2030 ( Truett, 2005 ) . Reinert was asked when fuel cell autos would replace gasolene powered autos where he replied †If I told you ‘never, ‘ would you be upset? † ( Butters 2005 ) . If projected major progresss in cost decrease and public presentation for H engineerings similar progresss should be made for loanblends, batteries and biofuels every bit good. It is really likely we will ne'er see a lasting, low-cost fuel cell vehicle with an efficiency, scope and one-year fuel measure that match even the best current intercrossed vehicle. Out of all AFVs and alternate fuels, fuel cell vehicles running on H are likely the least likely to be a cost effectual solution to planetary heating which is why other thoughts should hold equal policy attending and support.E-HybridsThe stopper in loanblend besides called the e-hybrid which has well lower nursery gas emanations, a much lower one-year fuel measure, a much longer scope than current autos where you can besides fuel at place and fewer substructure jobs than traditional AFVs. Vehicle usage is largely for short trips such as transposing which means for a long period the auto wo n't be in usage where in this period the vehicle can be charged. Typical scope for these autos last around 20-40 stat mis. If the electricity were from CO2 free beginnings so these vehicles would besides hold clear reduced net nursery gas emanations. Since these vehicles besides have gasoline engine means they have many advantages compared to pure electric vehicles. One of import factor is that they are non limited in scope by the entire sum of battery charge. If the battery charge is completing the auto can run on gasolene and be charged when possible. E-hybrids avoid many of the barriers these are: They do non hold a hapless scope. There are no major safety and liability issues but great attention would hold to be taken in the design of any place based system that is used for bear downing. Fueling cost is cheaper when compared to gasoline where it costs about a 3rd of the monetary value per stat mi.

Relationships in The Other Side of the Bridge by Mary...

The Other Side of The Bride Essay. The Other Side of the Bridge by Mary Lawson is a book that depicts two different people, that mainly focuses on jealousy, rivalry and the power of obsession over half a century. There are many characters in the novel and they build relationships with one another that eventually become intertwined. The relationships that are built end up having an effect on the character, and contributes something different to his understanding of himself and the decisions he makes. Ian in the novel is an example of that, where the relationships he builds with the others, helps him find who he is as a person and affects the decisions he makes. Specifically through the relationships with Pete, his father, and Jake, he†¦show more content†¦In the epilogue at the end of the novel Ian and Pete end up fishing again and Pete says, â€Å"Nope. But he’s down there, man. He’s down there.†(355). Going back to the memory of trying to catch the fish that almost pulled Pete overboard, showing that Ian is staying in Struan for good. Ending the novel with doing something he loves to do with his best friend and implying that he is escaping from the recent news of Arthur’s upcoming death. Pete also helps Ian realize how beautiful the town of Struan actually is. â€Å"Beyond the dragonflies the sun was sinking slowly, casting its rays across the lake, and on either side, everything, as far as the eye could see, was slowly dissolving into the haze. Ian thought, If I live to be a hundred years old. I will always remember this.† (226-227). Ian after seeing this moment with Pete realized the beauty of his hometown Struan. The relationship Ian builds with Pete makes him realize much he loves his hometown of Struan because of its beauty and without Pete, Ian would never have these beautiful images of Struan. Theses images later influence Ian and he decides to live there and become the doctor of the town. Another big influence that Ian had in his life, inspir ed to become a doctor in the future and that person is Ian’s father. The relationship with Ian and his father is also very important to Ian’s understanding of himself. Ian’s father helps him realize what heShow MoreRelatedThe Other Side of the Bridge1959 Words   |  8 PagesIn the novel, The Other Side of the Bridge by Mary Lawson, the author capitalizes upon society’s expectation of a character to emphasize the struggle to achieving his goals. Ian, one of the central characters in the plot line, is heavily impacted by these expectations, which hold a substantial influence upon his decision’s regarding his future. To teenagers an expectation: a strong belief that something will happen or be the case in the future, is nothing but a restriction upon them. 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Infosys Is A Nasdaq Listed Global Finance Essay - Free Essay Example

Sample details Pages: 11 Words: 3446 Downloads: 6 Date added: 2017/06/26 Category Finance Essay Type Argumentative essay Did you like this example? Established in 1981, Infosys is a NASDAQ listed global consulting and IT services company with more than 153,000 employees. From a capital of US$ 250, we have grown to become a US$ 7.126 billion (LTM Q2 FY13 revenues) company with a market capitalization of approximately US$ 28 billion. Over the years, we have catalyzed some of the major changes that have led to Indias emergence as the global destination for software services talent. Don’t waste time! Our writers will create an original "Infosys Is A Nasdaq Listed Global Finance Essay" essay for you Create order We pioneered the Global Delivery Model and became the first IT Company from India to be listed on NASDAQ. Our employee stock options program created some of Indias first salaried millionaires. What We Do Infosys was started in 1981 by seven people with US$ 250. Today, we are a global leader in consulting, technology and outsourcing with revenues of US$ 7.126 billion (LTM Q2 FY13). Many of the worlds most successful organizations rely on Infosys to deliver measurable business value. Infosys provides business consulting, technology, engineering and outsourcing services to help clients in over 30 countries build tomorrows enterprise. Our award-winning Infosys Labs and its breakthrough intellectual property can be leveraged as a co-creation engine to accelerate innovation across the enterprise. Infosys pioneered the Global Delivery Model (GDM), based on the principle of taking work to the location where the best talent is available, where it makes the best economic sense, with the least amount of acceptable risk. Continued leadership around GDM enables Infosys to drive extraordinary efficiencies and free up clients resources for strategic transformation or innovation initiatives. Infosys has a global footprint with 66 offices and 69 development centers in US, India, China, Australia, Japan, Middle East, UK, Germany, France, Switzerland, Netherlands, Poland, Canada and many other countries. Infosys and its subsidiaries have 153,761 employees as on Sep 30, 2012. Infosys takes pride in building strategic long-term client relationships. 98.2% of our revenues come from existing customers (Q2 FY 13). Infosys gives back to the community through the Infosys Foundation that funds learning and education. How we do it Infosys helps companies derive the measurable business value that they have always been looking for from business and IT investments. We deliver measurable business value in 3 ways: Transform We can transform the fundamental shape of your business PL. Regardless of which team you engage with, we have a best-practice process for delivering value. We call it IMPACT to ensure a clear line of sight from process change to bottom-line impact, ensuring that you receive the business value you were promised. Optimize Beyond transformation and innovation, it boils down to execution delivering on time, on budget and on value. We can optimize your core operations to drive best-in-class efficiency and help fund the transformation and innovation. Innovate We can inject a level of product and service innovation into your business to create new revenue opportunities through collaboration and co-creation. We keep abreast of the latest technology and how it applies to your business issues. What you get from us is best-of-breed solutions. The foundation of our innovation capability is our core lab network Infosys Labs and the new thinking that our team of over 600 researchers brings to the table. Who we are Our Vision, Mission and Values Vision We will be a globally respected corporation. Mission Strategic Partnerships for Building Tomorrows Enterprise. Values We believe that the softest pillow is a clear conscience. The values that drive us underscore our commitment to: CLIFE Client Value: To surpass client expectations consistently Leadership by Example: To set standards in our business and transactions and be an exemplar for the industry and ourselves Integrity and Transparency: To be ethical, sincere and open in all our transactions Fairness: To be objective and transaction-oriented, and thereby earn trust and respect Excellence: To strive relentlessly, constantly improve ourselves, our teams, our services and products to become the best Milestones 2012 Infosys acquires Lodestone Holding AG, a leading management consultancy based in Switzerland Forbes ranks Infosys among the worlds most innovative companies Infosys among top 25 performers in Caring for Climate Initiative Infosys crosses the US$ 7 billion revenue mark 2011 N. R. Narayana Murthy hands over chairmanship to K V Kamath Infosys crosses US$ 6 billion revenue mark, employee strength grows to over 130,000 2010 Infosys crosses the US$ 5 billion revenue mark 2009 Infosys opens its first development center in Brazil and second Latin American development center in Monterrey, Mexico Infosys selected as a member of The Global Dow Employee strength grows to over 100,000 2008 Infosys crosses revenues of US$ $ 4.18 billion Annual net profits cross US$ 1 billion 2007 Infosys crosses revenues of US$ 3 billion. Employees grow to over 70,000+ Kris Gopalakrishnan, COO, takes over as CEO. Nandan M. Nilekani is appointed Co-Chairman of the Board of Directors Opens new subsidiary in Latin America Reports Q2 revenue of over US$ 1billion 2006 Infosys celebrates 25 years. Revenues cross US$ 2 billion. Employees grow to 50,000+ N. R. Narayana Murthy retires from the services of the company on turning 60. The Board of Directors appoints him as an Additional Director. He continues as Chairman and Chief Mentor of Infosys 2005 Records the largest international equity offering of US$ 1 billion from India Selected to the Global MAKE Hall of Fame 2004 Revenues reach US$ 1 billion Infosys Consulting Inc. is launched 2003 Establishes subsidiaries in China and Australia Expands operations in Pune and China, and sets up a development center in Thiruvananthapuram 2002 Touches revenues of US$ 500 million Nandan M. Nilekani takes over as CEO from N.R. Narayana Murthy, who is appointed Chairman and Chief Mentor Opens offices in the Netherlands, Singapore and Switzerland Sponsors secondary ADS offering Infosys and the Wharton School of the University of Pennsylvania set up The Wharton Infosys Business Transformation Awards (WIBTA) Launches Progeon, offering business process outsourcing services 2001 Touches revenues of US$ 400 million. Opens offices in UAE and Argentina, and a development center in Japan N. R. Narayana Murthy is rated among Time Magazine/CNNs 25 most influential businessmen in the world Infosys is rated as the Best Employer by Business World/Hewitt 2000 Touches revenues of US$ 200 million Opens offices in France and Hong Kong, a global development center in Canada and UK, and three development centers in the US Re-launches Banks 2000, the universal banking solution from Infosys, as FinacleÃÆ' ¢Ãƒ ¢Ã¢â€š ¬Ã… ¾Ãƒâ€šÃ‚ ¢ 1999 Touches revenues of US$ 100 million. Listed on NASDAQ Infosys becomes the 21st company in the world to achieve a CMM Level 5 certification Opens offices in Germany, Sweden, Belgium, Australia, and two development centers in the US Infosys Business Consulting Services is launched   1998 Starts Enterprise Solutions (packaged applications) practice 1997 Opens an office in Toronto, Canada Infosys is assessed at CMM Level 4   1996 The Infosys Foundation is established  Â  1995 Opens first European office in the UK and global development centers at Toronto and Mangalore. Sets up e-Business practice   1994 Moves corporate headquarters to Electronic City, Bangalore. Opens a development center at Fremont   1993 Introduces Employee Stock Options (ESOP) program Acquires ISO 9001/TickIT certification Goes public   1987 Opens first international office in Boston, US  Â  Ãƒâ€šÃ‚  1987 Relocates corporate headquarters to Bangalore  1981 Infosys is established by N. R. Narayana Murthy and six engineers in Pune, India, with an initial capital of US$ 250 Signs up its first client, Data Basics Corporation, in New York Q2. A critical review and assessment of the companys specific funding requirements and objective for the fund raising round. The name of the company is INFOSYS LIMITED The registered office of the company will be situated in the state of Karnataka. The objects for which the company is established are: MAIN OBJECTS OF THE COMAPNY TO BE PERSUED BY THE COMPANY ON ITS INCORPORATION. To establish, maintain, conduct, provide, procure or make available services of every kind including commercial, statistical, financial, accountancy, medical, leagal, management, educational, engineering, data processing, communication and other technological social or other services. To carry on the business as importer, exporter, buyers, leassers and sellers of and dealers in all type of electronic components and equipments necessary for attaining the above objects. Objects incidental or ancillary to the attainment of the main objects: To carry on all kinds of promotion business, and in particular to form, constitute, float, lend money to assist and control any companies, associations, or undertakings whatsoever. To establish, provide, maintain and conduct or otherwise subsidise research laboratories, experimental stations, workshops and libraries for scientific, industrial, commercial and technical research and experiments; to undertake and carry on scientific, industrial, commercial, economic, statistical and technical research, surveys and investigation; to promote studies, research investigation and invention, both scientific and technical by providing, subsiding, endoving, or assisting laboratories, colleges, universities, workshops, libraries, lectures, meatings, exhibitions and confereces and by providing for the remuneration to scientists, scientific or technical proffesors or teachers and the award of scholarships, grants and prizes to student, research-workers and inventors or otherwise and generally to encourage, promote and reward studies, research, investigation, experiments, tests and inventions of any kind. To provide for the welfare of the employees or ex-employees of the Company and wives, widows, families or dependends of such persons by building or contributing to the building of houses, dwellings or chawls or by grands of money, pensions, allowences, gratuities, bonus or other payments or by creating and from time-to-time subscribing or contributing towards places of instructions and recreation, hospitals and dispenseries, medical and other attendenes and assistance as the Company shall think fit. To subscribe or contribute or otherwise to assist or to guarantee money to charitable, benevolent, religious, scientific, national, public or any other useful institutions, objects or purposes or for any exhibition. To establish and maintain or procure the establishment and maintenance of any contributory or non-contributory pension or superannuation funds for the b enefit of, and give or procure the giving of donations, gratuities, pensions, allowances or employments to any person who are or were at any time in the employment or service of the Company, or of any company which is a subsidiary of the Company or is allied to or associated with the Company or with any such subsidiary company, or who are or were at any time Directors or Officers of the Company or of any such other company as aforesaid, and wives, widows, families, and dependants of any such persons and also establish and subsidise and subscribe to any institutions, associations, clubs or funds calculated to be for the benefit of or to advance the interests and well being of the Company or of any such other company as aforesaid, and make payments to or towards the insurance of any such person as aforesaid and to do any of the matters aforesaid, either alone or in conjunction with any such other company as aforesaid. To undertake and execute any trust the undertaking of which may seem to the Company desirable and either gratuitously or otherwise. To act as agents, registrars or brokers and as trustees for any person or company and to undertake and perform sub-contracts. To buy, sell, manufacture, repair, alter and exchange, let on hire, export, and deal in all kinds of articles and things which may be required for the purposes of any of the said businesses, or commonly supplied or dealt in by persons engaged in any such businesses, or which may seem capable of being profitably dealt with in connection with any of the said businesses. To adopt such means of making known the business of the Company and/or associate companies or others as may seem expedient and in particular by advertising in the press, public places and theatres, by radio, by television, by circulars, by purchase and exhibition or works of art or interest, by publication of books, pamphlets, bulletins or periodicals, by organising or participating in exhibitions and by granting prizes , rewardsand donations. To apply for and acquire any statutory or other powers, rights or concessions. To act as Aadatias, Selling Agents, Purchasing Agents, Factors, Muccadums, Carriers, Jatha Merchants, Landing and Forwarding Agents, Brokers, Guaranteed Brokers, in respect of goods, materials and merchandise and produce and articles of all kinds and descriptions. To construct and develop residential or industrial colonies for the general advancement of members, employees or others. To purchase, or otherwise acquire and undertake the whole or any part of the business, property, rights, and liabilities of any person, firm or company carrying on any business which this company is authorised to carry on or possessed of property or rights suitable for any of the purposes of the Company and to purchase, acquire, sell and deal in property, shares, stocks, debentures or debenture-stocks of any such person, firm or company and to conduct, make or carry into effect any arrangeme nts in regard to the winding up of the business of any such persons, firm or company. To enter into partnership or into any arrangements for sharing of profits, union of interest, reciprocal concession or co-operation with any person, partnership, or company and to promote, constitute, form and organise, and aid in promoting, constituting, forming and organising companies, syndicates or partnerships of all kinds for all the purposes or acquiring and undertaking any property and liabilities of the Company or of advancing, directly or indirectly, the objects thereof or for any other purposes which this Company may think expedient. As also to pay for any properties, rights or privileges required by this Company either in shares of the Company or partly in cash or otherwise and to give shares or stock of this Company in exchange for shares or stock of any other company. To apply for, purchase or otherwise acquire patents, brevet inventions, licences, concessions and the like confe rring any exclusive or nonexclusive or limited right to use any secret or other information as to any invention which may seem capable of being used for any of the purposes of the Company or benefit the Company and to use, exercise, or develop or grant licences in respect of or otherwise turn to account the property, rights or information so acquired. To receive money, valuable, and goods and materials of all kinds of depositor for safe custody. To lend money and other property, to guarantee the performance of contracts and obligations of all kinds, to act as agents in the management, sale and purchase of property, and generally to transact business as capitalists and financiers. To lend, invest or otherwise employ or deal with moneys belonging to or entrusted to the Company upon making arrangements to secure repayment or payment of principal and interest thereon. To borrow or raise or secure the payment of money or to receive money on such time and from time to time and in such manner as may be thought fit and in particular by the issue of debentures, or debenture-stocks, perpetual or otherwise including debentures or debenture-stock convertible into shares of this or any other company or perpetual annuities and in security for any such money so borrowed, raised or received or any such debentures or debenture-stocks so issued, to mortgage, pledge or charge the whole or any part of the property, assets or revenue and profits of the Company, present or future, including its uncalled capital by special assignments or otherwise or to transfer or convey the same absolutely or in trust and to give the lenders power of sale and other powers as may seem expedient and to purchase, redeem or pay off any such securities provided the Company shall not carry on banking business as defined in the Banking Regulation Act, 1949. To draw, make, accept, endorse, discount, execute, issue, negotiate, assign and otherwise deal with cheques, drafts, bills of exchange , promissory notes, hundies, debentures, bonds, bills of lading, railway receipts, warrants and all other negotiable or transferable instruments. To amalgamate with any other company or companies. To distribute any of the property of the Company amongst the members in specie or kind subject to the provisions of the Companies Act in the event of winding up. To apply for, tender, purchase, or otherwise acquire any contracts, subcontracts licences and concessions for or in relation to the objects or business herein mentioned or any of them, and to undertake, execute, carry out, dispose of or otherwise turn to account the same. To do all or any of them in any part of the world either as principals, agents, contractors, trustees or otherwise and either by or through agents, trustees, sub-contractors or otherwise, either alone or in conjunction with others and to allow any property to remain outstanding in such agents or trustees. To do all such other things as are incident al or conducive to the attainment of the above objects or any of them. OTHER OBJECTS: To carry on the business of an investment company and to buy, underwrite and to invest in the acquire and hold shares, stocks, debentures, debenture-stocks, bonds, obligations and securities issued or guaranteed by any company constituted or carrying on business in India or elsewhere and debentures, debenture-stocks, bonds, obligations and securities issued or guaranteed by any Government, State, Dominion, Sovereign, Ruler, Commissioners, Public body or authority supreme, municipal, local or otherwise or firm or person whether in India or elsewhere and to deal and turn to account the same. To carry on business related to the electronic industry, Textiles, Chemicals, Hotels, Construction Engineering items. To transact and carry on all kinds of agency business and in particular to collect rents and debts, and to negotiate loans, to find investments, and to issue and place shares, stocks, debentures, debenture-stocks or securities for the above business of the Company. To ca rry on business of every kind and to act as merchants, traders, Commission or other agents or in any other capacity whatsoever in India or in any part of the world, to carry on the business of providing services of every kind and to import, export, buy, sell, barter, exchange, pledge, make advances upon or otherwise deal in goods, produce, article, merchandise, services, conveniences and amenities of every kind which will be required for the business of the Company To carry on business as capitalists, financiers; concession and merchants and to undertake and carry on and execute all kinds of financial, commercial, trading and other operations. To sell or purchase or otherwise deal in any goods, products, articles or things and to carry on business as merchants, traders, and dealers in any goods, commodities, articles and things whatsoever in or outside India and generally to carry on business as exporters, importers and dealers. To carry on the business of advertising contr actors and agents and any other business which may be usefully carried on in connection with such business and to acquire and undertake the whole or any part of the business property and liabilities of any person or company carrying on business as such contractor or agents, or any other business which may be usefully carried on in connection therewith. To manufacture, maintain, export, import, buy, sell, rent, hire or lease or otherwise acquire, dispose of or deal in all kinds of digital systems, numerical controller, flexible manufacturing systems, robots, communication systems, computers, computer peripherals, computer software, computer hardware, computer technology, machines, computer aided teaching aids, energy saving devices, alternative sources of energy, electrical and electronics components, devices, instruments, equipments and controls for any engineering applications, and all other related components, partsand products used in communication and computers. AND IT IS HEREBY DECLARED that the word company in this Memorandum when applied otherwise than to this Company shall whenever the context shall so require or admit be deemed to include any authority, partnership or other body of persons whether incorporated or un-incorporated and whether domiciled in India or elsewhere and that the intention is that the objects specified in the several paragraphs of this Memorandum shall be regarded as independent objects and shall accordingly shall be in no wise limited or restricted in its application (except when otherwise expressed in such paragraphs) by reference to the objects in any other paragraph or the name of the company, but may be carried out in as full and ample a manner and construed and applied in as wide a sense as if each of the said paragraphs defines the objects of a separate, distinct and independent Company. The liability of the members is limited. The Authorized Share Capital of the company is Rs. 300,00,00,000 (Rupees three hundr ed crores only) divided into 60,00,00,000 (Sixty crores only) Equity Shares of Rs. 5 each (Rupees five only) with power to increase and reduce the capital of the company and to divide the shares in the capital for the time being into several classes and attach thereto respectively such preferential, deferred, qualified or special rights, privileges or conditions as may be determined by or in accordance with the Articles of Association of the company for the lime being and to vary, modify or abrogate any such rights, privileges or conditions in such manner as may be permitted by the Companies Act, 1956 or by the Articles of Association of the company for the time being .