How to Control Mosquitoes Around Your Home

How to Control Mosquitoes Around Your Home Nothing takes the fun out of an evening barbecue outdoors like a bunch of bloodthirsty  mosquitoes. In addition to inflicting a painful bite, mosquitoes can transmit diseases. You can keep your local mosquito population under control by limiting their habitat on your property, and avoid their annoying bites by using the right barriers and repellents. Mosquitoes Require Water to Breed Mosquitoes require water to breed. Adult mosquitoes  lay eggs in stagnant or slow moving water, or on moist soil or leaf litter in areas likely to collect water. By eliminating these water sources, you can keep new generations of mosquitoes from taking up residence in your yard. 7 Tips to Prevent Mosquitoes From Breeding Follow these tips to prevent mosquitoes from breeding around your home: 1.  Ã‚  Ã‚  Drill holes in the bottom, not the sides, of any garbage or recycling containers stored outdoors. Holes on the sides still allow enough water to accumulate in the bottom for mosquitoes to breed.   2.  Ã‚  Keep gutters clean and unclogged. Be sure your downspouts drain properly, without leaving puddles in the drainage area. You may need to reroute your downspouts or add extensions to carry water away.   3.  Ã‚  Keep swimming pools cleaned and chlorinated, even when not in use. Homeowners who go on vacation without chlorinating their pools may return to a veritable mosquito hatchery.   4.  Ã‚  Walk your property after a rain, and look for areas in the landscape that are not draining well. If you find puddles that remain for four or more days, regrade the area.   5.  Ã‚  Ornamental ponds should be aerated to keep water moving and discourage mosquitoes from laying eggs. Alternately, stock the pond with mosquito-eating fish.   6.  Ã‚  Dump anything that holds water twice per week if it has rained. Birdbaths, non-chlorinated wading pools, footbaths, garbage can lids, and pottery will all attract breeding mosquitoes. Remember to empty the saucers under your flower pots, and dont leave water in pet bowls for more than two days.   7.  Ã‚  Keep your property clean of items that can hold water, including discarded aluminum cans and tires. 6 Effective Repellents and Barriers Even when following all the precautions above to eliminate mosquito habitat, some mosquitoes will still be around to spoil your fun. You can limit exposure to the mosquitoes that remain by using effective repellents and barriers. 1.  Ã‚  Ã‚  Window and door screens should be 16-18 size mesh and fit snugly, without gaps around the edges. Check your screens for holes and repair or replace them as needed.   2.  Ã‚  Replace your outdoor lights with yellow bug lights. These lights do not repel insects, but mosquitoes and other pests are less likely to find them attractive and invade your yard.   3.  Ã‚  When outdoors, apply a DEET-based insect repellent according to the directions on the label. DEET will need to be reapplied in 4-6 hours.   4.  Ã‚  Treat clothing, sunshades, and screen houses with a permethrin-based product, such as Permanone. Permethrin repels both mosquitoes and ticks and will last through several washes on your clothing.   5.  Ã‚  Some insecticides available commercially may be used by the homeowner for mosquito control. Check the labels for EPA-approved products registered as effective against adult and larval mosquitoes. A light spray application around building foundations, shrubs, and grasses will keep adults from resting in these areas.   6.  Ã‚  Use of some other repellent products, such as citronella candles and mosquito coils, may also be effective if used in windless conditions. Some concerns about mosquito coils, which are impregnated with chemicals, and possible respiratory impacts have been raised recently, however. Don't Bother With These Bogus Mosquito Products Despite what your friends tell you, some popular mosquito control methods have no significant impact on keeping mosquitoes in check. According to Wayne J. Crans, Associate Research Professor in Entomology at Rutgers University, these often-touted mosquito solutions are not worth your time or money. Bug Zappers Though the satisfying sizzle you hear from this modern day insect torture device will convince you its working, dont expect much relief from backyard mosquitoes. According to Crans, biting insects (including mosquitoes) generally make up less than 1% of the bugs zapped in these popular devices.  Many beneficial insects, on the other hand, do get electrocuted.   Citrosa Plants While citronella oil does have proven mosquito-repellent properties, the genetically-modified plants sold for this purpose do not. In tests by researchers, the test subjects bitten as often while surrounded by the Citrosa plants as without them. In fact, mosquitoes were observed landing on the leaves of Citrosa plants during the study.   Bats And/Or Purple Martins While both bats and the colonial purple martins will consume mosquitoes, the offending insects make up a small percentage of their natural diet. Assertions about these insectivores being effective mosquito controls grew out of misrepresented and misinterpreted data from unrelated studies. While providing habitat for bats and purple martins has its value, dont do it if only to reduce your mosquito populations.   Electronic Devices That Transmit Sounds to Mimic Electronic devices that transmit sounds to mimic male mosquitoes or dragonflies do not work. Crans goes so far as to suggest the claims made by distributors border on fraud. Enough said. Reference:  Products and Promotions That Have Limited Value for Mosquito Control, Wayne J. Crans, Associate Research Professor in Entomology, Rutgers University

Pre

Pre If we talk about the best and the most influential composers of all the times, Johann Sebastian Bach is one of the first names that have to be mentioned. This German composer and organist created plenty of unbelievable works, which presented the Baroque period in all its glory.Advertising We will write a custom report sample on Pre-Concert Talk about Johann Sebastian Bach specifically for you for only $16.05 $11/page Learn More In comparison to many other composers of the 17th, 18th, and 19th, Bach’s life and career has quite limited boundaries from Eisenach to Leipzig. However, his works and ideas are known to the whole world and arouse interest of many people with different cultures and preferences. His The Well-Tempered Clavier and Three Collections of Dance Suites are probably the greatest intellectual treasures all over the world. These keyboard works have their own peculiarities and captivate both the listeners and the performers. Without any do ubts, lots of pianists prefer to use the works by Bach during their performances, but they do not completely comprehend their style and background. Such lack of understanding turns out to be the major reason of why the same works may be presented and comprehended in many different ways. This is why it is crucially important to know the background of each musical work and be able to analyze its style. This time, two above-mentioned Bach’s works will be under our consideration. In Bach’s life, there are three major periods: Weimar, Cà ¶then, and Leipzig. During each of these periods, Bach created more and more captivating works and amazed people with his abilities to choose the best things in the world and represent them by means of music. â€Å"It was in Weimar that this remarkable process of self-education culminated in consummate mastery and the crystallization of Bach’s personal style which be then had evolved as the synthesis of the international musical le gacies.† 1 The Well-Tempered Clavier is considered to be one of the brightest works during this period.Advertising Looking for report on art and design? Let's see if we can help you! Get your first paper with 15% OFF Learn More This is â€Å"much more than a compendium of contrapuntal devices, a role belonging more properly to the Art of Fugue.†2 In order to comprehend this work and be ready to read it, taking into consideration every detail, it is very important to analyze certain theoretical background and be aware of meaning of such notions like ‘equal temperament’, ‘just intonation’, ‘prelude’, and ‘fugue’. There are two volumes, which present a prelude and a fugue in every key, major and minor. A prelude is a quite short piece of music that may change its form depending on the whole masterpiece. Preludes usually serve as introductory parts to succeeding movements of the rest of the work or as separate pieces of works. The prelude consists of several repeating rhythmic motifs, so that it may considerably influence the general perception of the work. At the beginning of the 17th century, German composers started uniting preludes with another type of contrapuntal technique of a work, a fugue. The combination of preludes and fugues gained its recognition in numerous Bach’s works. Bach liked to participate in different events, where composers had to create and introduce fugues on organs or harpsichords in a short period of time. German composers wanted to move toward expression by means of huge harmonic changes and had a need of wider tonality realm. Without any doubts, Bach’s Well-Tempered Clavier serves as a good example of this musical tuning, known to lots of people as â€Å"just intonation†. It is a kind of system, â€Å"in which all the intervals are derived from the natural (pure) firth and the natural (pure) third.† 3 Nowadays, well temp eraments are replaced by another system of tuning that is called â€Å"equal temperaments†, where only octaves considered to be pure intervals. Sebastian Bach could not agree that equal treatment should take such an important place.Advertising We will write a custom report sample on Pre-Concert Talk about Johann Sebastian Bach specifically for you for only $16.05 $11/page Learn More â€Å"The more mathematically minded writers on equal temperament have given the impression that extreme accuracy in figures is the all-important thing in equal temperaments, even if it is patent that such accuracy cannot be obtained upon the longest feasible monochord.† 4 Of course, the results of Bach’s own tuning deserve people’s recognition and analysis. In 1722, Bach started the creation of the first book of The Well-Tempered Clavier and the first cycle of different compositions in this very conception. The prelude in C Major that is followed by the fugue in C Major starts Book I. Then, the prelude and fugue in C Minor follow. Each pair of prelude and fugue is presented in the chromatic scale till the last key. Book II was completed in 1744. More experienced and more educative Bach made a wonderful attempt to continue his work and add more interesting details to it. He wanted to achieve one of his cherished goals during the creation of this Well-Tempered Clavier – to prove the feasibility of well temperament for each composition in every key. However, it was not the only purpose of Bach. He was also eager to clear up how progressive work might contain some conservative ideas. This is why The Well-Tempered Clavier may be analyzed as a great source of information about various historical styles and idioms. It is necessary to admit that ornamentation played a very important role in the sphere of music during the 17th and 18th centuries. Lots of Bach’s written-out notes may be regarded as ornamentation examples. O rnamentation in Bach’s compositions helps to comprehend better different melodic events and make them more beautiful. People, who cannot notice any pieces of ornamentation, may see only a kind of surface layer of all the notes presented by the composer. The table of ornaments, offered by Bach in 1720 describes almost all commonly used ornaments: turn, appoggiatura and trill, ascending trill, etc. 5Advertising Looking for report on art and design? Let's see if we can help you! Get your first paper with 15% OFF Learn More Without any doubts, The Well-Tempered Clavier created by Bach is considered to be the greatest work of the Weimar period. In spite of the fact that this composition was created during the Baroque period, it had a considerable impact on Western classical music. For lots of people, who deal with music, both theorists and composers, this masterpiece remains a good sources of various musical techniques, which were so inherent to the Baroque style. Bach tried to unite unbelievable things or just the things, the combination of which was still unknown to the composers of the 17th century. When people listen to The Well-Tempered Clavier, they get a wonderful opportunity to enjoy unbelievable sounds and ideas. However, without proper awareness of such issues as equal temperament, just intonation, prelude, fugue, and different types of ornamentation, a professional musician will hardly evaluate this piece of work and find out what exactly the creator wants to represent to his listeners. Anoth er Bach’s work that deserves our attention and requires deep consideration is Three Collections of Dance Suites: The English Suites (BWV 806-811), the French Suites (BWV 812-817) and the Partitas for Keyboard (BWV 825-830). In order to comprehend why Bach chose a certain style for his work, it is better to analyze the backgrounds of each of dance suite and clear up their tempos. There are so many kinds of dance suites like the allemande, the sarabande, the gavotte, or the bourree, and each of them has its own peculiarities and influences the further development of the masterpiece. â€Å"The suite is usually denotes a cycle (or series) of dance pieces changing in tempo and meter yet preserving key unity throughout.† 6 The dance suite appeared in the 17th century and was one of the most famous discoveries of the Baroque Era. The Baroque dance suite’s major components, which are performed in one and the same key, are a prelude (it has already been discussed), the a llemande, courante, sarabande, intermezzi (consisting of minuet, gavotte, or some other dance), and gigue. Usually, al these components turn out to be dependant on the composer’s wish. If he/she wants to make the work really captivating, it is crucially important to think about the possible combinations and represent them in the composition. To make the right decision, it is necessary to be aware about the background of each dance suite and its tempo. First of all, it is better to remember that: Allemande has German origins and is represented within quadruple meter. The tempo of this movement is quite moderate and starts with an upbeat. Courante has more French origins and is characterized by quicker tempo in comparison to allemande, and presented in triple meter. If we look at the French dictionary, we will see that courante means run. According to such a simple translation, it is easier to guess a nature of this very movement. Sarabande is probably one of the slowest types of dance suite. It has Spanish origins and is performed in triple meter. Gigue attracts people attention by its fast tempo and lively atmosphere. This dance suite came from England, and its peculiar features are numerous triplets and a certain number of wide leaps. This very dance suite starts with eight meter. These four movements were the major components of the suites during the times of Bach. It was also possible to add several optional movements, which may be placed between the sarabande and gigue. In Three Collections of Dance Suites, Bach preferred to use bourree, gavotte, minuet, and prelude, of course. â€Å"His music speaks of initial hesitancy followed by confidence†7, this is why his unbelievably right choice of components for the suites always amazes the listener. Almost all additional movements have French origins: bourree is characterized as lively dance, gavotte is a kind of moderately fast dance, and minuet is elegant French dance with three even beats perf ormed in triple time. The minuet is the dance suite, which was the most preferable one by Sebastian Bach. In his Collection of Dance Suites, each collection consists of six suites. The model to each collection is quite standard: prelude, allemande, courante, sarabande, optional movement, and gigue. However, it is necessary to admit that Bach did not like to follow the rules precisely, but still could not create absolutely different pieces of music, this is why each collection has something in common that corresponds to the general model, and something different that underline the uniqueness of each collection. The English Suites are one of those, which closely follow the ordinary model. All six suites have the prelude, allemande, courante, sarabande, and gigue. Between the gigue and sarabande, each suite presents own optional movement: bourree (1st and 2nd suites in A major and minor), gavotte (3rd suite in G minor), minuet (4th suite in F major), passepied (5th suite in E Minor), a nd again gavotte (for 6th suite in D Minor). The French Suite does not have the prelude, but presents more movements between the gigue and the sarabande. This is why some of the French Suites have 5 movements (the 1st suite), 7 movements (2nd, 3rd, and 5th suites), and even 8 movements (4th and 6th suites). The Partitas for Keyboard is interesting due to its introductory movements and the variety of movements between basic elements of the whole model. The first suite has the standard model with the prelude and minuet. The 2nd suite has sinfonia as the introductory movement, and rondeau and capriccio as the final movements. The following four suites have quite different structures represented in the same key. After we look at the structures of each Bach’s suites, we can easily find out the differences and the peculiarities of each of them. It is impossible to say that some suite is better or worse than the other is. It is rather understandable that the beginning of the composi tion is a bit simple in order to provide the listener with a chance to feel the melody and create the general picture of the events. With each suite, Bach adds more and more movements. Such addition may be compared with the development of a person. With time, a human learns something new and enlarge his/her knowledge, he/she meets new people, and tries to make this life better than it is. Almost the same happens in Bach’s compositions. With time, each suite is enlarged with one or more movements. They influence the suite in its peculiar way and make the listener feel something that has not been inherent before. Johann Sebastian Bach’s contribution into music during the Baroque Era remains to be rather considerable. People all over the world get a wonderful chance to enjoy his magnificent compositions. â€Å"His personal stamp on† 8the old forms of suites added something really new to the further development of classical music. Even if Bach was a bright represent ative of the Baroque Era, his impact on Classical music is also great. It is impossible to analyze his works after listening them for one or two times. To grasp all the ideas, which Bach wanted to reproduce, it is better to learn their backgrounds and pay attention to each detail in the composition. Each suite in Bach’s compositions has different components. These movements make the work sweeter, and the addition more and more different movements to each suite is a wining decision of the composer to attract the attention of many theorists and practical composers. His works serve as good educative examples to learn more and more about the world of classical and Baroque music. His Dance Suite and The Well-Tempered Clavier are real treasures, which have to be kept, analyzed, and used in order to improve our modern music. Bibliography Apel, Willi. Harvard Dictionary of Music, Harvard University Press, 1969. Barbour, James, M. Tuning and Temperament: A Historical Survey, Courier D over Publications, 2004. Gillespie, John. Five Centuries of Keyboard Music: An Historical Survey of Music for Harpsichord and Piano, Courier Dover Publications, 1972. Lloyd-Watts, Valery Bigler, Carole L., and Palmer, Willard A. Ornamentation: A Question Answer Manual, Alfred Publishing, 1995. Melamed, Daniel, R. J. S. Bach and the German Motet, Cambridge University Press, 1995. Neumann, Frederick. Ornamentation in Baroque and Post-Baroque Music: With Special Emphasis on J. S. Bach, Princeton University Press, 1983. Schulenberg, David. The Key Board Music of J. S. Bach, CRC Press, 2006 Sharpe, R. A. Music and Humanism: An Essay in the Aesthetics of Music, Oxford University Press, 2000. Footnotes 1 Neumann, Frederick. Ornamentation in Baroque and Post-Baroque Music: With Special Emphasis on J.S. Bach (Princeton University Press, 1983), 7 2 Schulenberg, David. The Keyboard Music of J. S. Bach (CRS Press, 2006), 199 3 Apel, Willi. Harvard Dictionary of Music. (Harvard University Press , 1969), 448 4 Barbour, James, M. Tuning and Temperament: A Historical Survey, (Courier Dover Publication, 2004), 87 5 Lloyd-Watts, Valery Bigler, Carole L., and Palmer, Willard A. Ornamentation: A Question Answer Manual. (Alfred Publishing, 1995), 39 6 Gillespie, John. Five Centuries of Keyboard Music: An Historical Survey of Music for Harpsichord and Piano (Courier Dover Publications, 1972), 40 7Sharpe, R. A. Music and Humanism: An Essay in the Aesthetics of Music (Courier Dover Publications, 1972), 81 8 Melamed, Daniel, R. J. S. Bach and the German Motet, (Cambridge University Press, 1995), 54. Pre Introduction Pre-stressing is one of the methodologies applied by civil engineers to mitigate natural drawbacks of steel concrete structures. The methodology is deployed to produce various structures for commercial utilisation such as floors, bridges, and beams among others.Advertising We will write a custom report sample on Pre-Stressed Concrete specifically for you for only $16.05 $11/page Learn More Concrete withstands more loads while subjected to compressive loads than while subjected to tensile loads. This behaviour implies that, when used to produce columns that are to be subjected to compressive loads, it can withstand more loads relative to when it supports loads that subject it to tension. A similar scenario is experienced when concrete is deployed to produce a beam. For instance, when a beam is simply supported and loaded, the dead load (load due to the weight of the beam) and the applied load subject the upper portion of the beam to compressive d eformation. The lower side is subjected to tensile strains, which otherwise induces tensile stress. Since non-reinforced concrete is stronger in compression than in tension, the beam can only support a limited amount of load in tension. When the span of a beam is increased, the load, which can be supported, reduces because longer spans buckle more than shorter spans. One way of dealing with this challenge is by providing more supports to the beam. However, this strategy is inconvenient especially when a beam is used to support floors in multi-storey buildings requiring large floor surface areas. Cost also becomes prohibitive. The amount of concrete used to make a beam to support a given amount of load is also higher than in the case of a reinforced beam. Traditionally, reinforcing was done using steel bars, which provide the required strength in tension. With a reinforced beam, the spans, which can support an equivalent load with a non-reinforced concrete beam with equal cross-secti onal dimensions is higher. The need to increase such spans even higher gives rise to the need of utilisation of pre-stressed concrete. The aim of this paper is to discuss the historical developments of pre-stressed concrete, the basic concepts of pre-stressed concrete, and the manufacturing of the pre-stressed concrete. An effort is also made to discuss the design of pre-stressed concrete together with its new developments. Historical Development The current achievements of the utilisation of pre-stressed concrete in civil engineering rest on the undying effort of scientists and engineers within the last 100 years. A San Francisco-based engineer, Jackson, was the first to patent pre-stressed concrete when he applied â€Å"patent for construction of artificial stone and concrete pavements in 1886† (Raju 2009: 2).Advertising Looking for report on architecture? Let's see if we can help you! Get your first paper with 15% OFF Learn More In his patent, pre-s tressing was realised through tensioning. Various rods used for reinforcing concrete were set in the form of sleeves. Two years later in 1888, small beams coupled with slabs were produced in Germany, Dorhring through deployment of tensioned wires that were embedded in concrete for purposes of crack prevention. In 1886, Mandl introduced the idea that pre-stressing was essential in countering the stress introduced by loads in concrete structures. Later, in 1907, â€Å" Koenen, of Germany, further developed the subject by reporting on the losses of pre-stress due to elastic shortening of concrete†(Raju 2009: 2). However, the significance of the loss of these stresses was identified first by an American Engineer, Steiner, in the year 1908. A Vienna-based Engineer, Emperger, used these findings to produce wire-bound concrete pipes. According to Raju (2009), these pipes were made by â€Å"binding high tensile steel wires on pipes at stresses ranging from 160 to 800 N/mm2† (2 ). Dischinger first demonstrated that unbounded tendons could also be utilised to make pre-stressed concrete structures in the year 1928. This task was accomplished through construction of deep-girder version of major bridges through use of pre-stressed wires, which were secured inside his girder that did not have any bond. The losses of pre-stress encountered were taken up by corresponding re-tensioning of wires that were deployed in the concrete structure. Based on these structures and exhaustively studying the steel and concrete properties, in 1928, Freyssinet argued that high-strength steel was advantageous for use in making pre-stressed concrete since more accounting of pre-stress losses could be realised. He singled out that such losses arose principally from shrinkage and creep in steel structures when loaded. From 1928 to 1933, Freyssinet is recognised for having made the most significant achievement in the development of pre-stressed concrete. These achievements were due to â€Å"development of vibration techniques for production of high-strength concrete and the invention of the double acting jack for stressing high-tensile steel wires† (Raju 2009: 2). These discoveries marked the beginning of the intensive spread of the practical applicability of the pre-stressed steel as from 1935. In the US and Europe, civil engineers began constructing long-span bridges from 1945 to 1950. A good example of such a bridge is shown in fig.1 below. Christian Menn designed and fabricated it in 1962. The bridge is found in Tamins-Reichenau in Switzerland. Advertising We will write a custom report sample on Pre-Stressed Concrete specifically for you for only $16.05 $11/page Learn More Fig.1: Tamins-Reichenau Bridge in Switzerland Source: (Billington 2004: 28) Over the last 50 years, pre-stressed concrete has been used in civil engineering for a variety of applications. They include construction of bridges having long spans, shelf roof f or industrial applications, construction of structures used in the marine industry, pressure vessels used in nuclear power plants, and railway sleepers among other applications. In recognition of these applications of pre-stressed concrete, Raju (2009) reckons, â€Å"there is probably no structural problem to which pre-stressed concrete cannot provide solution and often a revolutionary one† (3). In the same line of thought, it can be inferred that pre-stressing is a universal principle in civil engineering, rather than just a technique. Basic Concepts of Pre-stressed Concrete The need to use pre-stressed steel arose because of two main reasons. The first one is the need for utilisation of high-strength steel in the making of concrete structures. The basic idea behind this need is that, the stronger the material used in construction, the lighter and smaller the beams to be built without sacrificing strength. Burgoyne (2002) cites the second reason as â€Å"the recognition of losses of pre-stresses due to various causes† (548). In fact, the initial attempts to deploy mild steel in the making of the pre-stressed concrete failed miserably because the working stress of mild steel is about 120N/mm2. This stress is totally, or the better part of it is, lost due to shrinkage and creeping together with elastic deformation. In this regard, Burgoyne (2002) puts the loss of stress in pre-stressed concrete due to these factors in the order of 100 to 240N/mm2. A material to be utilised successfully for making pre-stressed concrete requires strength in the range of 1200 to 2000N/mm2. Such amount of strength can only be provided by high strength steel. Raju (2009) supports this basic design principle by asserting, â€Å"high strength concrete is necessary in pre-stressed concrete, as the material offers high resistance in tension, shear, bond, and bearing† (3). A fundamental question that arises is how the high-strength steel could be used to support tens ile loads yet it sags.Advertising Looking for report on architecture? Let's see if we can help you! Get your first paper with 15% OFF Learn More The response to the above query underlines the reason why pre-stressing is done while using a high-strength steel to make concrete beams. Perhaps the best way of conceptualisation of how steel functions in a concrete beam to support tensile loads can be done by consideration of an elastic band. When an elastic rubber band is stretched and force applied mid way, the amount of sag decreases when a constant load is applied as the stretching force is increased. This finding implies that the higher the pre-stressing force, the higher the amount of that load that the rubber band can support. This concept is the basic principle of operation of pre-stressed concrete beam. The functionality of pre-stressed concrete beam may also be interpreted by consideration of an analogy of carrying books, which are stuck together. Books can be stuck in rows, which can then be lifted up. It is also possible to carry the books by first applying a force to make the rows stick together and then pull the stac ked books in rows horizontally. Upon applying pressure, compressive stresses are induced in the books so that they become easier to move from place to place at once. Using the same concept, pre-stressing concrete helps to eliminate a number of design challenges associated with reinforced concrete. Burgoyne (2002) supports this importance of pre-stressed concrete by asserting, â€Å"Pre-stressing removes a number of design limitations that conventional concrete places on span and load by permitting the building of roofs, floors, bridges, and walls with longer unsupported spans† (551). Consequently, engineers and architects are given an opportunity to come up with designs for beams, which can have longer, lighter, and shallower spans while paying critical attention to the need of the high strength required for utility performance in structural components of roofs and bridges. Manufacturing of Pre-stressed Concrete Manufacturing of pre-stressed concrete is done at a pre-stressin g concrete plant. During manufacturing of the pre-stressed concrete, civil engineers apply two ways for inducing compressive stresses in pre-stressed concrete. The first one is pre-tensioning while the second one is post-tensioning. Pre-tensioning is a method whereby concrete is placed after stretching of tendons. Fig. 2 below shows the tendons used in the manufacture of pre-stressed concrete. Fig 2: Tendon used in manufacture of pre-stressed concrete Source (Raju 2009) The force used to pre-stress concrete is transferred via a bond to the concrete. In the pre-tensioning method, concrete is placed upon stretching steel. â€Å"In order to strengthen the beam, steel tendons with high strength are put in between two abutments to be tensioned to around 70 to 80 percent of their overall strength† (Mutsuyoshi Hai, 2010, p.167). The concrete is allowed enough time to cure to gain the necessary strength. Tensioning forces are now released. Steel produces a reaction after attaining the required strength from the concrete making it gain the length that it had before. Consequently, tensile stresses are converted into transformed into compressive stresses, which upon complete curing are now very firm. Fig .3 below shows an example of a beam used for bridge contruction manufutured through pretentioning. Fig. 3: Pretentioned pre-stressed Concrete beam Source (Billington 2004) Post-tensioning is a pre-stressing methodology in which the concrete put after the tendons is tensioned and hardened before the steel is stretched. â€Å"The pre-stressing force is moved through the end anchorages to the concrete† (Mutsuyoshi Hai, 2010, p.171). Concrete is then cast around. Normally, an engineer makes ducts in the concrete body as the process progresses. This case is done with the help of steel rods, which are later removed. In the next step, with regard to Raju (2009), â€Å"After the concrete is hardened until it gains the required strength, engineers place and str etch the steel tendons towards the end of the unit† (p.57). Concrete that has been post-tensioned has a myriad of applications ranging from making of large girders, slabs, and roofs to pavements among other applications. Both pre-tensioning and post-tensioning produce good pre-stressed concrete. However, they are different. One of the striking differences is that post-tensioning is only possible to do in a manufacturing plant. Post-tensioning is done on the job site using applications, which are cast in place. Design of Pre-stressed Concrete Beams The pre-stressed concrete design initiates by determining the required load to be supported and the mechanism of loading the resulting beam. However, while designing, it is important to remember that a beam has its own weight. In the most simplistic scenario, it is uniformly distributed. Supporting conditions also determine the dimensional and sectional properties of the pre-stressed concrete beam that is selected for a given applica tion. The simplest support conditions are the cart livered beams or simply the supported beams. For pre-stressed concrete beams, having multi supports such as the ones shown in making the bridge shown in shown in fig .4, the calculation involved requires advanced techniques to obtain solutions for deflections, and the tensile and compressive stresses and strains on the loaded beam. Such techniques involve numerical methods and other methods for obtaining parametric solutions. It is important to note that, with the development of software applications, there is a specialised commercial software application that helps designers to handle these often-tedious calculations. However, for the software to give practical solutions, there must be inputs such as loading conditions and sectional properties such as the modulus of elasticity, the permissible bearing, shearing, compressive and even tensile stresses that would be induced on the beam. Normally, a designer has at his or her disposal the material properties, which are often tested and documented in the form of standards such the required loading and span. Depending on the required aesthetic properties of the concrete structure, the cross-sectional shape may also be known. The design challenge is then to find the member size, which is required together with the tendon profile and forces required for pre-stressing. Fig 2: Chillon Viaduct Bridge in Switzerland Source (Billington 2004: 27) Determination of the member size requires designers to conduct an analysis of the pre-stressed members, which can be â€Å"different for different stages of loading† (Burgoyne 2002: 549). There are three main stages of loading. They are initial, intermediate, and final loading stages. The initial stage is further divided into two main sub-stages. These are â€Å"tensioning of steel and the transfer of pre-stress to concrete† (Raju 2009: 98). In case of the intermediate stage, the designer considers the loads acting on the members during transportation, handling, and during erection of members that are pre-stressed. In the final stage of design of the pre-stressed concrete beams, two main considerations are made. These are the response of the members during operation and the ultimate performance of the members during extreme conditions. Since a pre-stressed member is built to withstand even extreme forces, for instance intense forces impacted on members during high water waves or during earthquakes, the designer is most interested in the analysis of the failure of the structure during such scenarios. As argued before, the design process of pre-stressed concrete yield parametric solutions. Therefore, the designer is involved in the intersection between decision-making and numerical calculations. In this regard, Burgoyne (2002) argues, â€Å"the human designer alternates between decision-making and computational challenges until the design is complete† (p.549). However, simple calculations are conducted first since they are repeated again in case the design fails to work. Complicated calculations are normally executed last when the design engineer is completely sure that the design will work. New Developments in the Pre-stressed Concrete For many decades now, pre-stressed concrete has been used in the construction of structures such as bridges all over the world. Pre-stressed concrete has dramatically grown due to the rise of its advantages such as higher lifecycle and the initial cost of making the concrete bridge. Pre-stressed concrete has great features over steel bridges because of its huge characteristics in aesthetic and economic aspects compared to concrete bridges, which have been reinforced. Recently, most pre-stressed concrete bridges have deteriorated before serving their estimated life span. This situation is caused by various factors such as environmental factors and corrosion. Consequently, concerns have been raised in the design and construction of pre -stressed concrete and its long-term durability (Mutsuyoshi Hai 2010). Therefore, civil engineers have adopted and applied a number of innovative technologies of pre-stressed concrete during the actual construction of projects as well as in their developments. In addition, some structures used in the construction of pre-stressed concrete have been presented to represent state of the art technologies. Development of new structures for pre-stressed bridges requires using an external pre-stressing technique, which produces externally pre-stressed concrete bridges that are designed using pre-stressing tendons, which are placed outside the section with concrete but within the boundaries of the cross-section of the girder. The idea behind external pre-stressing is widely advantageous. It is now becoming more popular in the building of medium and long-span bridges. Some of the advantages are the ability to control and adjust tendon forces, ease inspection of tendons while they are built, and reduction in thickness of the web. To increase performance of pre-stressed concrete bridges, new innovative technologies have been adopted to make this possible. These technologies include PC bridges, which have tendons that are highly eccentric externally. Although, externally pre-stressed PC bridges are well known and are highly advantageous, their flexural strength is lower compared to that of internally bonded tendons because of the eccentric tendons being smaller and limited by the ties of the girder section as well as the reduced eccentric tendon at the definite flexural failure. Extra-dosed PC bridges comprise a type of system that is structured in a way that tendons have been installed outside and above the major girder with a short deviation of towers being situated at supports. With regard to Virlogeux (1998) argues, â€Å"Extra-dosed PC bridges have a girder height that is lower than that of the ordinary girder bridges† (p.19). This case reduces the weight of t he structure. Thirdly, bridges made from pre-stressed concrete and possessing webs from steel possess grooved steel plates with less weight. These are better instead of using the concrete web because corrugated steel can withstand shear forces while not absorbing the unwanted stresses brought by pre-stressing thus efficiently enabling pre-stressing of up and down concrete deck slabs (Virlogeux 1998). In fact, corrugated webs made form steel are known to possess incredible shear resistance coupled with buckling rà ©sistance. Raju, (2009) develops this argument further by stating, â€Å"Lightweight corrugated steel web plates cause about 25% reduction in self-weight of main girders enabling the usage of longer spans† (p.93). They also reduce the cost of construction. Conclusion Pre-stressed concrete offer a myriad of advantages compared to the reinforced concrete. From the discussions of the paper, these merits range from increased spans length of a beam that can be simply sup ported to reduction of the dimensions of the beam without sacrificing the strength of the structure constructed using the pre-stressed concrete beams. Since the weight of a beam is also less, the strength of the supports required is also reduced. The paper held that the advantages have prompted hefty research on how such beams can be cheaply manufactured since they are currently finding wide range of applications in a variety of fields such as nuclear power plants, rails, and road bridges having long spans and even in construction of roofs for building requiring large floor areas. Bibliography Billington, D, ‘Historical Perspective on Prestressed Concrete’, PCI Journal, vol. 1, no. 3, 2004, pp. 14-30. Burgoyne, C, Design of Prestressed Concrete Beams Using Expert Systems, Imperial College of Science and Technology, London, 2002. Mutsuyoshi, H N Hai, Recent technology of pre-stressed concrete bridges in Japan, Saitama University, Tokyo, 2010. Raju, K, Pre-Stressed Concr ete, McGraw Hill, New York, 2009. Virlogeux, M, Non-linear Analysis of Externally Prestressed Structures, Proceedings of FIP Symposium, London, 1998.

A Culturally Defined Nation

There is nothing to define the country more than culture. Culture is a unified power to integrate people, economics and politics. For people, this is attribution. In the words of Mahatma Gandhi, 'culture of the people exists in the soul and soul of people' culture has established a set of traditional morals that will eventually be inherited throughout humanity. It becomes a part of life, even the most diverse people can return. Cultural nationalism defines the state by sharing culture. Nationwide membership qualifications are completely voluntary (they can not get cultures at once), they are not genetic (If you grew up in other cultures, the members' children are seen as foreigners It will be done). China's nationalism is an example of cultural nationalism. Because there are a few ethnic minorities in China. (Chinese nationalists include Taiwanese nationalists who claim to reject mainland Chinese government but have mainland China) Cultural conservatives will help protect the country 's heritage, or a common culture that is not defined at the border. Shared culture may be as different as Western culture or Chinese culture. In the United States, the term cultural conservatism may imply a conservative position in cultural warfare. Even in the face of major changes, cultural conservatives still keep traditional thinking. They firmly believe in traditional values ​​and traditional politics and often have a sense of nationalism Cultural nationalism is a type of nationalism where the state is defined by a common culture. It is an intermediate position between national nationalism and civil nationalism. Therefore, it will focus on the national identity formed by cultural tradition rather than the concept of common ancestors and races. Cultural nationalism does not tend to appear in the independence movement, but rather has a place in a wider nationalist ideology. Therefore, the position of the moderate faction of Flanders, Hinduism nationalism may be cult ural nationalism, and these movements include forms of national nationalism and ethnic mysticism. The fact that European and American media are focusing on Western nationalism generally reflects the influence of defining the identity of citizens as existing demographic and political systems as rapidly changing demographic data . In contrast, the minorities and religious organizations have weakened the competitiveness over the universe in Chinese culture due to the one-party system and the government's control over the media. China's nationalism is determined by the relationship between China and other countries, especially the past 150 years of historical experience.

Postmodernism and Metanarratives Essay Example | Topics and Well Written Essays - 1500 words

Postmodernism and Metanarratives - Essay Example The essay "Postmodernism and Metanarratives" states the postmodernism and discovers our liberation from metanarratives. In the department of American philosophy, postmodernism approach is little accepted to knowledge and truth. A metanarrative is an idea that people think it’s a comprehensive explanation of knowledge or historical experience. It is a global cultural narrative schema that explains and orders experience and knowledge. As used, Meta means â€Å"about â€Å"while a narrative is a story that is built in a fashion that is sequential. A metanarrative is therefore a story that explains a story encompassing other small stories within schemes that are totalizing. This notion, that reality is community oriented, also appeals to very few Christian theologians. Because there is no any universality accepted postmodern philosophy, but there are many, there are few consistent themes that happen to emerge from every mainstream postmodern writer. The many issues surrounding p ostmodernism today leaves us asking ourselves if we have been liberated from metanarratives and if we should be. The main theme of postmodern philosophy is that it denies the objective truth, which is universal. This is well declared in a statement that is so famous, â€Å"incredulity towards metanarrative†. A meatanarrative is a unifying story that tries to tell about the world. People should be skeptical of broad explanations like those ones. The statement, that God so loved the world is treated as nonsensical by postmodernists.

Engine system for the Airbus A3200 Assignment Example | Topics and Well Written Essays - 1250 words

Engine system for the Airbus A3200 - Assignment Example The FADEC controls the fuel injection and timing; hence, optimize engine power. This adds the considerable amount of wiring to the system due to the needed separate power supply for backup from the alternator. The extra weight of parts of FADEC system has to be checked and recalculated for adjustment. FADEC has cockpit controls and other extra switches added to this system to control the fuel pump. These systems are protected by the FADEC power supply (Gunston, 1990)). The ECU has a 3D memory map, which controls fuel injection under varied circumstances for instance, air pressure density and the air temperature, with respect to throttle settings and the RPM. The Electronic Control Unit can sense barometric pressure and respond by injecting fuel. The spark plug ignition timing is controlled depending on load for each throttle settings. The ignition timing variations yields faster engine starting and smoother operations with the variable loads. The FADEC engine does not need chocking d uring starting since the ECU controls fuel for every cylinder and assists in retarding the ignition. FADEC system does not use the carburettor and the ignition and does not also depend on aircraft electrical system (Guttman, 2009). On the other hand, in the hydromechanical control system, the driver is in control of the aircraft power plant using an internal combustion engine. The sensors and control are the alternator and the battery masters. The battery master activates the battery contractor that connects the battery to the electrical bus aircraft. Alternator master applies power to the field circuit of the alternator to activate the circuit. The two switches provide power to the aircraft systems. The throttle sets up the required power level and controls the massive air-flow rate in the carburetted engines that are delivered to the cylinder. Pitch control adjust the speed unit, which then adjusts the propeller pitch and controls the load required by the engine in maintaining the RPM. The mixture control will in turn set the needed fuel to add to the airflow intake. At high altitudes, the oxygen levels reduce and, therefore, volume of the fuel must readjust to the required air-fuel mixture. The ignition switch opens the ‘P’’lead circuit by activating the magnetos. The magnetron maintains the process of sending the output voltage to spark plugs and connects the engine through the gearing. Movement in the crankshaft causes the magnetrons to generate voltage for sparking (Hispano-Suiza, 2001). TASK 1: FADEC SYSTEM OF THE V2500-A5 ON THE AIRBUS A320 SYSTEM LAYEROUT DIAGRAM FIG1: The AIRBUS A320 FADEC system layout for the V2500 engine The FADEC system for V2500 is designed with EEC, the HMU and the sensors as the components that form the core of the engine system. The other component that is assigned to systems is the ignition system (Ian, 1990). Forces necessary for movement of startar vanes are brought about by the use of air pressure. Con trol valves from the hydraulic part is arranged centrally in HMU or decentralized around the actuators with FMU fixed in fuel distribution system. The alternator that is located at the accessory gear box is the main power supply. The aircraft electrical system provides alternative power supply and is used in case of FADEC alternator fails. The FADEC system requires relatively low power since this power is only used for EEC operation, the servo valves and also the sensors. All the components controlled by FADEC systems

Integrated Marketing communication Assignment Example | Topics and Well Written Essays - 500 words

Integrated Marketing communication - Assignment Example have to be included to create space or new roles and responsibilities brought in by the new concept brought about by the Girls next-door TV show (Clow & Baack, 2012). The external stakeholders include customers, those who watch the TV show and those who are against it. All these people will be affected by the new events because some customers will like the idea and some may not want to be associated with it. The show lovers could be attracted to the Olive Gardens’ restaurants while those who are against the show may decide to cut their link with the restaurants (Clow & Baack, 2012). For casual observers of media, the Sexiest Girls of Olive Garden will appear to be a sponsorship because of several factors. First, the show will feature the name of the restaurant, which to them will mean that it is sponsored by Olive Gardens. Secondly, Olive Garden had not accepted or denied whether it funds the show or not. Therefore, for casual observers of the media, they would ride on the notion that the show is funded by the restaurant. This event is an instance in which damage-control programs were in order. Olive Garden is understood through a brand and image of family, friends and fun. However, despite the fact that Kendra Wilkinson mentioned Olive Garden as a genuine fan and with sincerity, it came as a promotion strategy. This is the damage that the Sexiest Girls of Olive Garden show seems to control. This show is a follow up event of what had already occurred (James, 2007). I agree with Kendra Wilkinson that Olive Garden could afford to appear a little edgy without detracting from its family friendly brand. Olive Garden is not just about family but also about friends and fun. Therefore, appearing edgy would center on the fun part of its brand. Olive Garden will be able to attract the people who watch The Girls Next Door who are not its customers yet. They could join the Olive Garden fraternity as friends or even family because these groups exist among the watchers.

Re-designing Services Offered by NHS UK Assignment

Re-designing Services Offered by NHS UK - Assignment Example The authorities have to establish better performance evaluation systems and ensure that their facilities are delivering world class services like their neighboring countries. Established on 5th July 1948, NHS is now one of the largest public health care service in the world (Hawe, 2008). The UK authorities established the NHS to provide the residents with equal access to treatment. NHS aims to provide clinical help to patients regardless of their ability to pay for the medical expenses. The organization is funded through national taxation and this ensures that NHS is able to provide care to people who are not able to afford it with personal means (Dept. of Health Staff, 2004). This report will now conduct a SWOT analysis of NHS UK. This analysis is expected to present more clearly the current situation of this organization, show its strengths, weaknesses, opportunities and threats. The government has increased the investment in NHS UK. While the organization only had 33 billion in 1996/1997 to spend, it now has around 67.4 billion in funds for its needs. NHS has also seen an increase in spending on buildings and equipment and now has 3.4 billion for investment in the infrastructure. This surplus has allowed the organization to have more modern equipment and facilities and take better care of its patients. NHS has also decided to have more staff on board and thus it has begun to steadily increase the number of doctors, nurses and attendants (Dept. of Health Staff, 2004). These figures indicate that the organization has the attention of the authorities, and the government is trying to pull it up by putting more money for its sustenance and future growth. The funds available to NHS have increased considerable over the last decade, and the authorities now have the money to improve their infrastructure. By purchasing modern equipment, NHS can dramatically improve its quality of services and gain appreciation from the patients in the UK. In addition, NHS has more staff at its disposal and thus they have more hands to provide services to their community. Weaknesses Even though the authorities are making several efforts to improve the quality and accessibility of NHS, the organization is often accused of low standard in health care. A report indicates that in comparison to other European countries, the patients' survival rates were very low in NHS. This reason for this low rate was due to poor organization of services. NHS has very long outpatient and elective surgery waiting times and need to have more focus on areas such as cancer and heart disease (Scambler, 2003). Apparently NHS is not improving despite the amount of money it is receiving from the government. The residents of UK are not happy with the quality of services and are still complaining about the low standard in health care. The patients are comparing the services available to them with those of health care services provided to residents in other European countries. NHS needs better organization of services where the patients don't have to wait for a very long time for surgeries. Also, NHS has to ensure that