Interior architecture in context Essay Example | Topics and Well Written Essays - 2000 words

Interior architecture in context - Essay Example s a course assistant with reputed architects like Ludovico Quaroni and Carlo Aymonino, for a while after taking the Degree in Architecture from Polytechnic University in Milan, in 1959. While Rossi taught the subject at various universities, he was internationally famous professor to teach in Zurich, Spain and America................(Aldo Rossi...) However, The Herzog & Demeuron being a commercial firm started making achievements in the building feats, right from their inception, as they designed museums, schools, art centers, libraries and residences as well as stadiums. Their design achievements can be seen in their works of Goetz art gallery at Munich in Germany, Institute for Hospital Pharmaceuticals, at Basel, Switzerland, built in 1998, Technical School Library at Eberswalde in Germany, and the latest one as the M.H. de Young Memorial Museum, San Francisco, California (2005). Apart from the Walker Art Center Expansion, designed by them at Minneapolis during the year 2005, there are other famous centers accredited to this firm.....(Herzog...) Herzog& De Meuron impressed the architectural world right from their first building, Ricola Warehouse as they brought in this design, an element of surprise of the fellow architects, although both the architects were young and below the age of forty years at that time. As the building was given a formal restrain that resulted in a canonical form, they established their own logic in this design, although the Ricola warehouse was built with reduced dimensions. While the walls enclosed the space in neutral manner, the handling of materials like the laminated wood panels and other things was done very efficiently to give the walls a traditional pattern that included rhythm and proportion. As many other architects of the later twentieth century tried to bring in originality and proposed new ideas, Herzog&De Meurone did propose new goals that were very refreshing, while solving the problems related to the cornice. While

Bottlenecks in Process Essay Example for Free

Bottlenecks in Process Essay There are series of tasks needs to be completed for successful execution of the process. The slowest task in the successive steps of operation determines the capacity of process. As the neck of the bottle lessens the speed of flow in bottle, the slowest task in the process in called the bottleneck as it impedes the efficiency of operational activities through highest throughput rate or longest cycle time. Identification of bottleneck is necessary for correct analysis of process capacity, which can help in improving the overall performance of operational activities (NetMBA, n. d. ).Laundry is one of the tasks in the home that takes more time, because require a process to have it done. Cycle time is defined as time required for the completing the identified task if it is repeated. So, Pareto chart reflects that the main bottleneck in the process of laundry is sorting operation. The Sorting process has largest cycle time in the mechanical operation of the laundry except the automatic process of washing and drying operations, which has least scope of improvement without changing the equipment. The whole process can be in equilibrium if each activity consumes equal time. But this happens rarely.Bottleneck is important area of concern, which helps in taking necessary measures to improve the overall process. We can apply the five focusing steps to improve the performance of the system. The application of 5 focusing steps in theory of constraints. Five focusing steps are laundry preparation is defined as follows: 0. Goal of the System – In the process of laundry, the goal of the system is to wash and dry the cloths in minimum time. 1. Identification of the constraint – The pre-sorting of cloths using quick sorter is critical factor in reducing the sorting time in Laundry Process. 2.  Exploitation of the constraint – The overall output of the laundry preparation depends on the output of the constraint. If sorting process is taking too much time to do the laundry for each type of durable, delicate and normal cloths, other members has to compensate with compromising their leisure time to attend other tasks. 3. Subordinate other works to the constraint – Since pre-sorting the cloths can be done each day to put the cloths in drawer of appropriate label, it will reduce the overall process time of laundry on the day of laundry by unfolding the socks in available and taking care of detergents and liquid fabric softener. . Minimize the constraint – Some investment like products like quick sorter from market can improve the sorting time. It can be helpful in minimizing the constraint. 5. Iteration for further improving the system – If goal is not achieved, it can be started further from step 0 to improve the system by working on other bottlenecks also. 6. Change the system – If system does not respond to any techniques of improvement, it can be replaced by better system to get the best result. But that will be the last option. Conclusion  Using bottlenecks to improve the productivity off system in theory of constraints. Once bottleneck is eliminated or reduced to considerable extent, other task can be identified as new area of focus to improve the performance of the process. In my daily activities, next bottleneck in laundry process of unfolding socks is much faster than sorting. Hence, we can say that the main bottleneck has significant impact on the capacity of process whereas second bottleneck has limited concern in the efficiency of process. Reference http://www.netmba.com/operations/process/analysis/

An Introduction To Welding

An Introduction To Welding Welding can be defined as a permanent joining process that produces coalescence of materials by heating them to the welding temperature, with or without the application of pressure or by the application of pressure alone, and with or without the use of filler metal [8]. Ibrahim [10] defined welding as a process of permanent joining two materials usually metals through localised coalescence resulting from suitable combination of temperature, pressure and metallurgical conditions. Most welding processes use heat to join parts together and the equipment used to generate the required varies, depending on the welding process. Welding is used extensively for the manufacture and repair of farm equipment, construction of boilers, mining and refinery equipment, furnaces and railway cars. In addition, construction of bridges and ships also commonly requires welding. The application of welding process depends on the requirements of the weld, accessibility of the weld area, economic considerations and available welding equipment [9]. The strength and the integrity of a weld depend on the material properties of the metal being welded, as well as on a great many other factors. These factors include the shape of the weld, temperature of the heat sources, the amount of heat produced by the source and even the type of power source used. Overview of Flux Cored Arc Welding (FCAW) In recent years, pressure to increase productivity and reduce costs by the manufacturers has been the main driving force behind the adoption of flux cored wires. Productivity, quality and ease of use are the three main factors on which the increasing popularity of FCAW. FCAW is an arc welding process that uses an arc between a continuous filler metal electrode and the weld pool [8]. The flux is used as a protection for molten metal from the atmosphere contaminations during welding operation. It will improve strength through chemical reactions and produce excellent weld shape. FCAW is very similar to GMAW in principle of operation and equipment used. In FCAW, weld metal is transferred as in GMAW globular or spray transfer. However, FCAW can achieve greater weld metal deposition and deeper penetration than GMAW short circuiting transfer [9]. The effects of electrode extension, nozzle angle, welding directions, welding speed and other welding manipulations are similar as GMAW. The FCAW are welding process introduced in early 1950s with the development of an electrode that contained a core of flux material. However, an external shielding gas was required even with the flux cored electrode. After that, the flux cored electrode that did not require an external shielding gas was developed in 1959. Shielding gas is important in FCAW-G process for increased penetration and filler metal deposition [9]. FCAW can be applied automatically or semi-automatic. Most FCAW process is semi-automatic, which is the wire feeder continuously feeds the electrode wire and the welder must manually positions the torch into the weld. However, it can transform to fully automatically with a computer driven robot manipulating the torch along a preset path. FCAW is widely used for welding large sections and with materials of great thicknesses and lengths, especially in the flat position. FCAW actually comprises two welding processes. The two variations for applying FCAW are self-shielded flux cored arc welding (FCAW-S) and gas-shielded flux cored arc welding (FCAW-G). The difference in the two is due to different fluxing agents in the consumables, which provide different benefits to the user. FCAW-S is a variation of FCAW in which the shielding gas is provided solely by the flux material within the electrode. The heat of the welding arc causes the flux to melt, creating a gaseous shield around the arc and weld pool. FCAW-S is also called Innershield and it is a flux cored arc welding process developed by Lincoln Electric Manufacturing Company [9]. On the other hand, shielding in FCAW-G is obtained from both the CO2 gas flowing from the gas nozzle and from the flux core of the electrode. FCAW-G is widely performed in flat and horizontal position. However, FCAW-G also can be performed for vertical and overhead position by using small diameter electrodes. C:UserssahaDesktopfcaws.png Figure 2.1: Self-Shielded Flux Cored Arc Welding (FCAW-S). [11] C:UserssahaDesktopfcawS.png Figure 2.2: Gas-Shielded Flux Cored Arc Welding (FCAW-G). [11] FCAW requires more electrode extension than GMAW. It is because electrode extension will affect the vapour-forming ingredients to generate enough arc vapour for adequate shielding [11]. Inadequate arc vapour will cause porosity in the weld. Besides that, the deposition rates and current density in FCAW are also higher than GMAW. The increased current density occurs due flux cored electrodes are tubular rather than solid, and the flux core has less density and current-carrying capacity than metal [11]. FCAW has a wide range of applications in industry. FCAW combines the production efficiency of GMAW and the penetration and deposition rates of SMAW. FCAW also has the ability to weld metals as thin as that used in vehicle bodies and as thick as heavy structural members of high rise buildings. The most common application of FCAW is in structural fabrication. High deposition rates achieved in single pass make FCAW more popular in the railroad, shipbuilding and automotive industries. Advantages of FCAW FCAW has many advantages over the manual shielded metal arc welding. It is more flexible and acceptable in varies industry compared to other welding operation such as gas metal arc welding, submerged arc welding and oxyacetylene welding. These advantages of FCAW [9, 10] are as follows: High quality weld metal deposit Produces smooth and uniform beads with an excellent weld appearance Produce less distortion than SMAW Welds a variety of steels over a wide thickness range High operating factor High deposition rate with high current density Economical engineering joint design Limitations of FCAW The limitations of FCAW regarding its applicability [12] are as follows: Confined to ferrous metals which is primary steels Removal of post weld slag requires another production step Electrode wire is more expensive on a weight basis than solid electrode wires Equipment is more expensive and complex than required for SMAW Ventilation system need to be increased to handle added volume of smoke and fume Robotic Welding Technology Nowadays, most of welding processes could be done in automated applications. With these automated applications, the welding process then called as robotic welding. Robot welding is the use of mechanized programmable tools, which completely automate a welding process by both performing the weld and handling the part. Robot welding is a relatively new application of robotics, even though robots were first introduced into US industry during the 1960s. The use of robots in welding did not take off until the 1980s, when the automotive industry began using robots extensively for spot welding. Since then, both the number of robots used in industry and the number of their applications has grown greatly. Cary and Helzer suggest that, as of 2005, more than 120,000 robots are used in North American industry, about half of them pertaining to welding. Growth is primarily limited by high equipment costs, and the resulting restriction to high-production applications. Robot arc welding has begun growing quickly just recently, and already it commands about 20% of industrial robot applications.[3] Major components of robotic welding The main components of arc welding robots are the manipulator or the mechanical unit and the controller, which acts as the robots brain. The manipulator is what makes the robot move, and the design of these systems can be categorized into several common types, such as the SCARA robot and Cartesian coordinate robot, which use different coordinate systems to direct the arms of the machine. It consists of a vertical mast and a horizontal boom that carries the welding head. They are sometimes referred to as boom and mast or column and boom positioners. Manipulators are specified by two dimensions: The maximum height under the arc from the floor. Maximum reach of the arc from the mast. The length of travel can be unlimited thus the same welding manipulator can be used for different weldment by moving from one workstation to another. http://www.emeraldinsight.com/content_images/fig/0490350503015.png In selecting and specifying a welding manipulator, it is important to determine the weight to be carried on the end of the boom and how much deflection can be allowed. The welding torch should move smoothly at travel speed rates compatible with the welding process. The manipulator carriage must also move smoothly at the same speed. Manipulators can be used for straight-line, longitudinal and transverse welds and for circular welds when a rotating device is used. As the diagram below shows, axis 1 and 2 are effectively a shoulder, axis 3 and 4 elbow and forearm and axis 5 and 6 are the wrist of the robot. Advantages of robotic welding Improve consistency of quality welds Difference with manual welding process, robotic welding can produces a consistently high quality of finished product, since there is no risk of tiredness, distraction or other effects from manually performing tedious and repetitive task. Once programmed correctly, robots will give precisely the same welds every time on work pieces of the same dimensions and specifications. Greater cycle speed Beside of above repeat ably, robotic welding systems also produce greater cycle speed as robots move from one weld to the next very quickly, making the entire process much faster. Robotic welding systems are able to operate continuously, provided appropriate maintenance procedures are adhered to. Continuous production line interruptions can be minimized with proper robotic system design. Repeatability Robot welding system may perform more repeat ably than a manual welder because of the monotony of the task. Robots work well for repetitive tasks or similar pieces that involve welds in more than one axis or where access to the pieces is difficult. Increase production output rates With robot welding you can also get an increased output with robots left running overnight and during weekends with little supervision. Robots also produce effectively because they can work inexhaustibly and consistently. As a result, output levels increase and client order deadlines can be met more easily. Safer workplace Comply with safety rules and improve workplace health and safety, robots can take overrun pleasant, arduous or health threatening tasks, decreasing the likelihood of accidents caused by employee contact with potentially hazardous fumes machines or processes. Comfortably Employees no longer have to work in hot, dusty or hazardous environments, plus they can learn valuable programming skills and be freed up for other work. As the same time, this condition improves quality of work for employees and helps retain them and reduces turnover. Reduction of costs Labour costs with less manual labour, there will be fewer costs related to sickness, accidents and insurance. Operating costs Robots can reduce both direct costs and overheads, making a dramatic difference to competitiveness. Automating the torch motions decreases the error potential which means decreased scrap and rework. Waste material cost the amount of waste due to poor-quality or inconsistent finishing can be significantly reduced. Welding Position Welding must be done in the position in which the part will be used. In this project, the scope is to study and investigate the correlation between welding parameter and bead geometry in 2F position. 2F position indicates welding operation for fillet weld in horizontal position. According to the American Welding Society (AWS), horizontal fillet welding is the position in which welding is performed on the upper side of an approximately horizontal surface and against and approximately vertical surface [8]. C:UserssahaDesktop2f position.png Figure 2.3: Schematic diagram of horizontal welding 2F position. [8] The official AWS diagrams for welding positions are precise. They utilize the angle of the axis of the weld which is a line through the length of the weld perpendicular to the cross section at its center of gravity. Figure 2.4 shows the fillet weld and its limits of the various positions. It is necessary to consider the inclination of the axis of the weld as well as the rotation of the face of the fillet weld [8]. Welding current Welding current is the most influential variable in arc welding process which controls the electrode burn off rate, the depth of fusion and geometry of the weldments. Welding voltage This is the electrical potential difference between the tip of the welding wire and the surface of the molten weld pool. It determines the shape of the fusion zone and weld reinforcement. High welding voltage produces wider, flatter and less deeply penetrating welds than low welding voltages. Depth of penetration is maximum at optimum arc voltage. [15] Welding speed Speed of welding is defined as the rate of travel of the electrode along the seam or the rate of the travel of the work under the electrode along the seam. Increasing the speed of travel and maintaining constant arc voltage and current will reduce the width of bead and also increase penetration until an optimum speed is reached at which penetration will be maximum. [15] The correct weld speed will result in a well formed weld bead that shows good fusion, penetration and a gradual transition of weld metal into the corners of the joint. A weld speed that is too fast results in a thin stringy weld with poor strength. A weld bead that is too slow a speed will result in a heavy weld that has too much convexity. Increasing the speed beyond this optimum will result in decreasing penetration. [16] In the arc welding process, increase in welding speed causes: Decrease in the heat input per unit length of the weld. Decrease in the electrode burn off rate. Decrease in the weld reinforcement. If the welding speed decreases beyond a certain point, the penetration also will decrease due to the pressure of the large amount of weld pool beneath the electrode, which will cushion the arc penetrating force. [16]

The Linwood Method and the Bio-Medical Approach: Two of the Competing T

  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚   RUNNING HEAD: Competing Theories for Treatments of Autism The Linwood Method and the Bio-Medical Approach: Two of the Competing Theories For the Treatment of Patients with Autism   Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚   Abstract The author of this paper gives and explanation of what autism is. He also tells you a b it about Jeanne Simons and why she created the Linwood Method and what it is. Then, in addition, you are given a description of who Dr. Jacquelyn McCandless is and her reasons for creating the Bio-Medical Method. She also gives the main idea behind the Bio-Medical Method.   Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Ã‚   Introduction   Ã‚  Ã‚  Ã‚  Ã‚  I have chosen the topic of autism because I have a family member that, at the age of two, was diagnosed as being autistic. I wanted to understand why he acts the way that he does. I also wanted to know what kids of treatments are out there; maybe it could be some use to his family. I found two theories of treatment that were very different from each other. My goal is to describe what autism is and then compare then Linwood Method and the Bio-Medical Approach. What is Autism?   Ã‚  Ã‚  Ã‚  Ã‚  Autism was not classified as a separate syndrome until 1943 by Doctor Leo Kanner, a child psychologist at John Hopkins Medical School. HE described it as: †¢Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Early onset- possibly from birth, but certainly before age two and a half †¢Ã‚  Ã‚  Ã‚  Ã‚  Ã‚  Social and emotional impairment- often shows up at birth †¢Ã‚  &nb... ...around them. I have seen with my own eyes how much patience it takes to be the family of a child with autism. It takes a very special person or group of people to handle it as well as I have seen. References Celiac Disease. National Digestive Diseases Information Clearinghouse. 30 April 2003   Ã‚  Ã‚  Ã‚  Ã‚  http://www.niddk.nih.gov/health/digest/pubs/celiac/#1 Genes and Disease. The National Center for Biotechnology Information. 30 April 2003 http://www.ncbi.nlm.nih.gov/books/bv.fcgi?call=bv.View..ShowSection&rid=gnd .section.234 German Measles or Rubella. Medinfo. 30 April 2003   Ã‚  Ã‚  Ã‚  Ã‚  http://www.medinfo.co.uk/conditions/rubella.htm McCandless, Jacquelyn. Children With Starving Brains: A Medical Treatment Guide For   Ã‚  Ã‚  Ã‚  Ã‚  Autism Spectrum Disorder. Canada: Bramble Books, 2002 Park, Clara Claiborne. Exiting Nirvana: A Daughter’s Life with Autism. 1st Edition. New   Ã‚  Ã‚  Ã‚  Ã‚  York: Little, Brown and Company, 2001 Simons, Jeanne and Sabine Oishi. The Hidden Child: The Linwood Method for Reaching   Ã‚  Ã‚  Ã‚  Ã‚  The Autistic Child. Maryland: Woodbine House, 1985

Ethanol Fuel :: Energy Vehicle Automobile E85

Missing Figures Ethanol Abstract: As of now we drive cars almost everywhere from home to the local store or different states. According to www.wikipedia.com there is â€Å"an estimated 243,023,485 registered passenger vehicles in the United States according to a 2004 DOT study!† 1That is a lot of cars. In a year the US alone consumes around 146 billion gallons of gasoline that is a huge amount. 2 According to figure 1 about 86% of all world energy comes from oil, gasoline, and coal; this leaves a tiny 14% to be divided among the other natural resources we could harness. Of that 14% of natural resources 9% are where ethanol falls and of that 9% only 12% is from biofuel. This means almost less than 0.3% of all our natural resources come from ethanol. Ethanol is already used in car gasoline as mixture, which most cars use and it is about 10% ethanol giving the name E10.3 This is helping us conserver our oil, gas, and coal resources so if we can further study in that field we will have a better future. 3 Introduction: One of the most common sources ethanol is made from is corn. Some other sources come from â€Å"sugar cane, bagasse, miscanthus, sugar beet, sorghum, grain sorghum, switchgrass, barley, hemp, kenaf, potatoes, sweet potatoes, cassava, sunflower, fruit, molasses, corn, stover, grain, wheat, straw, cotton†3 (http://en.wikipedia.org/wiki/Ethanol_fuel) Ethanol is noticed in chemistry by an oxygen and a hydrogen bonded to almost anything (example show in figure 3). Ethanol is colorless and flammable as well as being the alcohol in alcoholic drinks.4 Ethanol can be produced as a petrochemical, a chemical product from raw materials of petroleum, by hydrating ethylene, double bonded C2H4. 4, 5, 6 The other way ethanol can be created is biologically by fermenting, an energy production processes requiring no oxygen, sugars with yeast.7 Ethanol 4 Ethanol is made up of easy to obtain resources, corn, and it is easy to make; this is showing that gasoline will be competition in the future.3 Currently in Brazil ethanol provides 18% of he country’s automobile fuel from just sugar cane. 3 About 99% of US produced ethanol is used to create E10, which is a mixture of gasoline and ethanol. In short ethanol can possibly play a more important role in the automobile industry. Advantages and Disadvantages: In figure 4 you can compare both the combustion of gasoline and ethanol gasoline consumes more oxygen and releases more carbon dioxide than ethanol. Ethanol Fuel :: Energy Vehicle Automobile E85 Missing Figures Ethanol Abstract: As of now we drive cars almost everywhere from home to the local store or different states. According to www.wikipedia.com there is â€Å"an estimated 243,023,485 registered passenger vehicles in the United States according to a 2004 DOT study!† 1That is a lot of cars. In a year the US alone consumes around 146 billion gallons of gasoline that is a huge amount. 2 According to figure 1 about 86% of all world energy comes from oil, gasoline, and coal; this leaves a tiny 14% to be divided among the other natural resources we could harness. Of that 14% of natural resources 9% are where ethanol falls and of that 9% only 12% is from biofuel. This means almost less than 0.3% of all our natural resources come from ethanol. Ethanol is already used in car gasoline as mixture, which most cars use and it is about 10% ethanol giving the name E10.3 This is helping us conserver our oil, gas, and coal resources so if we can further study in that field we will have a better future. 3 Introduction: One of the most common sources ethanol is made from is corn. Some other sources come from â€Å"sugar cane, bagasse, miscanthus, sugar beet, sorghum, grain sorghum, switchgrass, barley, hemp, kenaf, potatoes, sweet potatoes, cassava, sunflower, fruit, molasses, corn, stover, grain, wheat, straw, cotton†3 (http://en.wikipedia.org/wiki/Ethanol_fuel) Ethanol is noticed in chemistry by an oxygen and a hydrogen bonded to almost anything (example show in figure 3). Ethanol is colorless and flammable as well as being the alcohol in alcoholic drinks.4 Ethanol can be produced as a petrochemical, a chemical product from raw materials of petroleum, by hydrating ethylene, double bonded C2H4. 4, 5, 6 The other way ethanol can be created is biologically by fermenting, an energy production processes requiring no oxygen, sugars with yeast.7 Ethanol 4 Ethanol is made up of easy to obtain resources, corn, and it is easy to make; this is showing that gasoline will be competition in the future.3 Currently in Brazil ethanol provides 18% of he country’s automobile fuel from just sugar cane. 3 About 99% of US produced ethanol is used to create E10, which is a mixture of gasoline and ethanol. In short ethanol can possibly play a more important role in the automobile industry. Advantages and Disadvantages: In figure 4 you can compare both the combustion of gasoline and ethanol gasoline consumes more oxygen and releases more carbon dioxide than ethanol.

Iago’s Use of Rhetorical Strategies to Manipulate Othello in Shakespear

Iago’s Use of Rhetorical Strategies to Manipulate Othello in Shakespeare’s Othello Rhetorical strategies are continually used to get a point across or to manipulate another. Iago uses many devices to put false accusations into Othello’s head. In lines 330-447 in Act 3 scene 3, Iago uses rhetorical question, imagery, and sarcasm. He questions Othello and makes him think the worst between Cassio and Desdemona, and then his use of words adds color and a picture, so it has to be right. Last his sarcasm creates the assurances Othello needed to be duped. To start, Iago uses rhetorical questions favorably to cause Othello to question Desdemona’s love for him. When Othello finishes with â€Å"†¦Than answer my waked wrath!† Iago comes back with â€Å"Is’t come to this my lord.† Later he goes into â€Å"Are...

The Great Gatsby “Fitzgerald Tying Is Life to the Book”

Fitzgerald writes The Great Gatsby as a mirror of his own life describing his life through such characters as Nick Carraway, the narrator and the Jay Gatsby the, protagonist which are representations of Fitzgerald’s life. Fitzgerald uses his own events to play key parts in this novel. Throughout The Great Gatsby characters and events are a written reflection of Fitzgerald life making The Great Gatsby an autobiography. Francis Scott Key Fitzgerald was born on September 24, 1896 in St. Paul Minnesota (A Brief Life of Fitzgerald).Francis’ parents enrolled him at the Newman School in 1911 when he was 15 years old, Newman School was a prestigious Catholic prep school located in New Jersey (F. Scott Fitzgerald Bio). After graduating from Newman in 1913 Fitzgerald went to Princeton University. At Princeton he devoted himself to working hard on becoming a writer. With all of his focus on writing, he began to struggle in other classes. Around 1917 Fitzgerald was on academic prob ation and it was very unlikely for him that he would graduate so he thought it was best for him to join the Army.Fitzgerald became a second lieutenant in the infantry (A Brief Life of Fitzgerald). Fitzgerald was so convinced that he would die in the war and scared that he had not accomplished his literary dreams in time, that he quickly wrote a novel called The Romantic Egotist. The novel was very well liked by the publishing company known as Charles Scribner’s Sons, but they asked him to revise it before sending it back to them(A Brief Life of Fitzgerald). Around June 1918 Fitzgerald was stationed at Camp Sheridan, near Montgomery Alabama (A Brief Life of Fitzgerald).While he was stationed in Camp Sheridan, he met a girl named Zelda Sayre (F. Scott Fitzgerald Bio). Zelda was 18 years old and Fitzgerald eventually fell in love with her. And he would continue to pursue after her. Fitzgerald was never actually deployed into the war, because World War I ended in 1919. After bein g discharged from the army, Fitzgerald decided to move to New York City where he hoped to start a career in advertising hoping that Zelda would marry him for having a job (F. Scott Fitzgerald Bio). Although Fitzgerald wanted Zelda, he quit his job and decided to return to St.Paul to rewrite his novel. Fitzgerald really hit a breakthrough when his novel, This Side of Paradise was published in 1920 (F. Scott Fitzgerald Bio). After finally having success from his novel, Zelda finally agreed to marry Fitzgerald only after a week of the book being published. Zelda and Fitzgerald married in New York. The couple had one child, a daughter named Francis Scott Fitzgerald, who was born in 1921 (F. Scott Fitzgerald Bio). Fitzgerald quickly became famous and wealthy from his writings as he began to write more novels and short stories as the year passed.Fitzgerald became a so called, â€Å"playboy† (F. Scott Fitzgerald Bio). Fitzgerald wrote The Great Gatsby and it was published in 1924. T he novel was closely based off most of Fitzgerald’s own life. Using his own experiences Fitzgerald was able to write his greatest novel ever. Fitzgerald shows himself throughout the book through mostly two characters; Nick Carraway and Jay Gatsby. Both characters had some aspect to Fitzgerald’s life. For instance Jay Gatsby and Fitzgerald both had a lover whom they wanted to marry so badly. Nick is the vision of what Gatsby saw of the â€Å"roaring twenties†.Jay Gatsby represented Fitzgerald’s personality as a lavish partier when Fitzgerald first became wealthy. Gatsby threw great parties that everyone wanted to go to. Fitzgerald became rich just like everyone wants to be. It was not just the partying that is seen as Fitzgerald, but Fitzgerald seems to describe his own young life through Gatsby as if he was writing an autobiography. Fitzgerald went to Princeton only for a while just as Gatsby went to St. Olaf’s College only to leave the school just as Fitzgerald left Princeton.Gatsby was blinded by Daisy’s beauty just as Fitzgerald was to Zelda. Both were determined to have their women. It seemed though Fitzgerald could not accept rejection or a loss, an example in Fitzgerald’s life was that Zelda broke their engagement, because Fitzgerald was not making enough money (A Brief Life of Fitzgerald). Fitzgerald drove himself to win Zelda. Fitzgerald put his emotions into Gatsby by trying to say he would do whatever it would take to have Zelda. Gatsby got all his money from illegal activities, because he was willing to do whatever it took to have Daisy.Like Gatsby, Fitzgerald was blinded by the beauty of one women that having Zelda, as Gatsby having Daisy, was all he wanted. Gatsby represented the partying celebrity. Nick Carraway represents the other side of Fitzgeral,d as he represents the quietness the better minded version of Fitzgerald. Fitzgerald and Nick Carraway were able to see that all this materialism and partying in the â€Å"Roaring Twenties† were morally decaying, yet they were both fascinated by the lifestyle. Nick represented Fitzgerald’s true feelings of the era where life was fun and flashy, but morally wrong to him.Nick Carraway at the end of the novel decided to move back to the Midwest to escape the craziness and hyped life happening on the east coast even though he was curious about it. (Fitzgerald 176). Fitzgerald puts his true feelings into Nick. Even though the fast rich life seemed fun and exciting it was morally decaying and he misses living normally. Fitzgerald showed many signs of an autobiography, in The Great Gatsby. Fitzgerald showed himself as idealized version of himself in Gatsby, doing whatever he could to have Daisy and never once thinking his plans would not work.Nick Carraway was Fitzgerald’s old self stuck in a place full of drama and morally decaying events that everyone in the party life thought as ok, because they thought they were better than everyone else. Fitzgerald’s novel The Great Gatsby, shows readers that his life was put into two characters; Jay Gatsby and Nick Carraway, to show the views of that era. . Works Cited â€Å"A Brief Life of Fitzgerald†. University of South Carolina. Web. 24 April 2012. â€Å"F. Scott Fitzgerald biography†. A+E Televison Network. Web. 24 April 2012 Fitzgerald, Francis S. The Great Gatsby. New York, NY: Scribner, 2004. Print.