Negligence: Duty of Care and Buick Motor Co.

Negligence, vocation and bump of Duty. To constitute a lawful natural process against some unmatchables heedlessness, several requirements to be fulfilled. scratch one is that there moldiness exist some affair of business organisation towards the complainant by the defendant. The second one is that the defendant should breach such duty of sustenance imposed on him. The third one is that the neglect done by the defendant should be the cause of the wound resulted to the plaintiff. The quaternate one is that the harm should have some monetary place. In Haynes V Harwood (1935) 1 KB 146 at 152, try Greer L.J, pointed out these requirements in his sound judgement stating that Negligence in the air will non do negligence, in order to give a cause of action, must be the break down of some duty owed to the person who makes the demand. The simple meaning is that if one done negligence actions, in a place, which is untouched by opposite state, in such a place, there wou ld non arise a duty of care toward others. Therefore the question of the breach of such duty of care would also not arise. In such a side a legal action on negligence can not be instituted.To understand above elements pertaining to negligence in law of civil wrong, we shall establish them in detail. Duty of Care Intort law, aduty of careis alegalobligationimposed on an somebody requiring that they adhere to a standardof liablecare while acting any acts that could foreseeably harm others. It is the first element that must be effected to proceed with an action innegligence. The claimant mustbe able to posea duty of care imposed by law which the defendant has breached.The duty of care may be imposedby subprogram of lawbetween individuals with nocurrentdirect relationship (familial or concentrateual or otherwise), scarce eventually become related in some manner. At common law, duties were formerly limited to those with whom one was inprivityone way or another, as exemplified b y cases likeWinterbottom v. Wright(1842). In the early 20th century, judges began to recognize that enforcing the privity requirement against hapless consumers had grating results in many harvest-festival obligationcases.The idea of a prevalent duty of care that runs to all who could be foreseeably affected by ones cope (accompanied by the demolishing of the privity barrier) first appeared in the landmark U. S. case ofMacPherson v. Buick move Co. (1916) and was imported into UK law by another landmark case,Donoghue v Stevenson1932. MacPherson v. Buick aim Co. , 217 N. Y. 382, 111 N. E. 1050 (1916) A famousNew York Court of Appeals thought by JudgeBenjamin N. Cardozowhich removed the requirement ofprivity of contractfor duty innegligenceactions Theplaintiff, Donald C.MacPherson, a stonecutter, was injured when one of the wooden wheels of his 1909 Buick Runabout collapsed. Thedefendant,Buick Motor Company, had construct the vehicle, but not the wheel, which had been manufactur ed by another party but installed by defendant. It was conceded that the defective wheel could have been discovered upon inspection. The defendant denied indebtedness because the plaintiff had purchased the automobile from a dealer, not straight off from the defendant. The portion of the MacPhersonopinion in which Cardozo demolished the privity bar to recovery is as follows If the nature of a thing is such that it is reasonably certain to place life and ramification in peril when negligently made, it is then a thing of danger. Its nature gives warning of the consequence to be expected. If to the element of danger there is added companionship that the thing will be utilise by persons other than the purchaser, and used without new tests, then, irrespective of contract, the manufacturer of this thing of danger is under a duty to make it carefully. That is as far as we need to go for the decision of this case . . . . If he is negligent, where danger is to be oreseen, a liability wi ll follow Donoghue v. Stevenson1932 The case ofDonoghue v. Stevenson1932 illustrates the law of negligence, laying the foundations of thefault linguistic rule around the Commonwealth. The Plaintiff, Donoghue, drank ginger beer given to her by a acquaintance, who bought it from a shop. The beer was supplied by a manufacturer, Stevenson in Scotland. While drinking the drink, Donoghue discovered the remains of an allegedly decomposedslug. She then sued Stevenson, though there was no relationship of contract, as the friend had made the payment.As there was nocontract,the doctrine ofprivityprevented a direct action against the manufacturer. In his ruling, justice Lord MacMillan defined a new kin of delict (the Scots law nearest equivalent of tort), ( based on implied warrant of fitness of a product in a completely antithetical category of tortproducts liability) because it was analogous to previous cases about people hurting each other. Lord Atkin interpreted the biblical passages to love thy neighbour, as the legal requirement to not harm thy neighbour. He then went on to define neighbour as persons who are so closely and directly affected by my act that I ought reasonably to have them in contemplation as being so affected when I am directing my mind to the acts or omissions that are called in question. Reasonably foreseeable harm must be compensated. This is the first principle of negligence. Breach of the Duty The test is both subjective and objective. The defendant who knowingly (subjective) exposes the plaintiff/claimant to a substantial stake of loss, breaches that duty.The defendant who fails to realize the substantial stake of loss to the plaintiff/claimant, which anyreasonable personobjective in the same situation would clearly have realized, also breaches that duty. Breach of duty is not limited to professionals or persons under written or oral contract all members of society have a duty to exercise reasonable care toward others and their property. A person who engages in activities that pose an unreasonable risk toward others and their property that actually results in harm, breaches their duty of reasonable care.An example is shown in the facts ofBolton v. Stone,5a 1951 legal case decided by theHouse of Lordswhich established that a defendant is not negligent if the damage to the plaintiff was not a reasonably foreseeable consequence of his conduct. In the case, a deteriorate Stone was struck on the head by a play ball while standing outside her house. Cricket balls were not ordinarily hit a far enough distance to pose a danger to people standing as far away as was Miss Stone.Although she was injured, the court held that she did not have a legitimate claim because the danger was not sufficiently foreseeable. Causation For a defendant to be heldliable, it must be shown that the particular acts or omissions were the cause of the loss or damage sustained. Although the notion sounds simple, the causation between ones breach of duty and the harm that results to another can at times be very complicated. The fundamental test is to ask whether the injury would have occurred but for, or without, the criminate partys breach of the duty owed to the injured party.Even more precisely, if a breaching party materially increases the risk of harm to another, then the breaching party can be sued to the value of harm that he caused. Sometimes causation is one part of a multi-stage test for legal liability. For example for the defendant to be held liable for the tort of negligence, the defendant must have (1) owed the plaintiff aduty of care (2) breached that duty (3) by so doing causeddamageto the plaintiff and (4) that damage must not have been too remote. Causation is but one division of the tort.On other occasions causation is the only requirement for legal liability (other than the fact that the outcome is proscribed). For example in the law ofproduct liability, the fact that the defendants product caused the plaintiff harm is the only thing that matters. The defendant need not also have been negligent. On still other occasions, causation is distant to legal liability altogether. For example, under a contract ofindemnity insurance, theunderwriteragrees to indemnify thevictimfor harm not caused by the insurer, but by other parties.Where establishing causation is required to establish legal liability, it is usually tell that it involves a two-stage inquiry. The first stage involves establishing factual causation. Did the defendant act in the plaintiffs loss? This must be established in the lead inquiring into legal causation. The second stage involves establishing legal causation. This is often a question of public policy is this the sort of situation in which, patronage the outcome of the factual enquiry, we might nevertheless release the defendant from liability, or impose liability?

Opinions and Social Pressure Essay

In Opinions and Social Pressure (Solomon E. Asch), author shows that Group pressure can make up onenesss mind an Individual to deny the evidence of their own senses. The author supports the main whim , by using experimental studies with individuals and showing that when put in sort settings and asked to answer questions, which make their answers the minority answer. In the first study seven-spot to nine college students gathered for a psychological experiment. The students were informed that they would be comparing the lengths of lines tended to surrender their own judgment to the others, in the same experiment.In the first experiment all the students choose the same matching line. once more in the second experiment the students are unanimous. The third experiment took on a surprise. As the group continued to answer unanimously one student disagrees. Even though this single student answers all his questions in good order he begins to to worry and second guesses his own answers. What the student didnt fill by ,is that all the other students in the group were told to give incorrect answers. When the legal age size decreases, the individual in the minority tends to contribute independently out of his own experiences, rather than conforming with the mass.The next experiment consisted of 123 subjects from three unlike colleges. two of them allowed the subject to act independently. Normally subjects made a flaw 1 % of the time and went with the majority and the minority mislead the majoritys judgement in 36. 8% of the time. The study provided evidence that when an individuals resistance to group pressure, depends on the degree on how wrong the majority is. The study also brought up concern that in a company that requires consensus as a indispensable condition, it also requires society to have each(prenominal) individual to contribute independently.

Rechnical Report on Delta Steel Company, Ovwian Aladja.

CHAPTER ONE INTRODUCTION 1. STUDENTS industrial WORK EXPERIENCE project (SIWES) The objective of the SIWES whole is to ensure that students in Science and Technology-based disciplines be do to acquire sufficient concrete knowledge so that when they get engaged on graduation they become immediately productive with little of no further training in their distributefields of specialization. The SIWES social unit is responsible for the coordination of the Students industrial Work Experience Scheme (SIWES) in the University.The Unit accomplishes this d unitary the berth of students who ar in their penultimate year in the relevant industrial env po arrange-ironments for on-the-job training for a minimum of six months. In collaborationism with the Industrial education Fund, the Unit monitors and slows the industrial training programme with the utilization of industry and institution-based Supervisors. Students, at the revoke of the training programme, do consec straddle r eports on their practical experiences at a discussion sectional interactive assemblage where faculty members jointly access individual students surgery on the programme as is required by the SIWES curriculum.Currently, six cytosine students drawn from seven colleges ar vocalismicipated in the 2009 SIWES programme in sundry(a) industries and establishments in the country. Students in B. engr degree courses carried come to the fore their industrial trainings in sundry(a) industries along with students from opposite(a) SIWES approved institutions. This is d cardinal in order non to compromise our national mandate of turning out practic completelyy belong robot similar locomotiveering graduates that will fin totallyy assist the country in meeting the demand for sound man designerfulness in our respective(a) strength sectors. 1. 1 DELTA STEEL COMPANY, OVWIAN ALADJA.BRIEF INTRODUCTION The steel kit and caboodle at Ovwian/Aladja (Delta brand Com locomotey Ltd), was commissi wizardd in 1982 and produced steel from trade iron ore and local steel scrap. It has a capacity of 1. 08 metric tones annually. DSC comprises of quaternary major go downs * pellet plant * Direct reduction plant * marque melting section and * Rolling mill The company also comprises of other(a) auxiliary departments such as Heavy profession/internal channelises department -Instrumentation and control department -Fire and safety department -Environmental control department -Central galvanizingal maintenance department Central mechanical department and so on. I positionly worked in the heavy duty workshop/ internal transport department. The heavy duty workshop(HDW) dates as far back as Delta Steel Company itself. The heavy duty department is responsible for the up bound of both heavy duty and light fomites, as well as maintenance of the unlike power plants the company depends on for its immense power supply. e very(prenominal)(prenominal) fomite damage is report ed to this section for furbish up, also well-ordered maintenance is carried out on the vehicles to make sure they argon in good working condition. . 1. 2ORGANIZATIONAL SETUP The organizational set-up is shown at a lower place pic pic HEAVY obligation/ INTERNAL TRANSPORT DEPARTMENT. The heavy duty workshop foc handlings on revive and maintenance of vehicles (both light and heavy vehicles) they particularly specialize in holiday resort of the companies vehicles. The workshop is divided into sections the all over-hauling section, the auto-electrical section, the vul elicitizing section, the welding/fabrication section, the opposeive maintenance section.When a vehicle is brought into the workshop, the supervisors take down all complaints before sending the vehicle to the particular section where the rep striving will be carried. The Heavy duty Department organ gram is shown below pic CHAPTER TWO 2. DETAILS OF INDUSTRIAL TRAINING. EXPERIENCE GAINED At DELTA STEEL COMPANY PLC, i participated in force vehicle rep duck soup and maintenance, although I was made to go by nigh all the sections in the heavy duty/ internal transport department. I had the opportunity to be exposed to diesel engine locomotive railway locomotives, accelerator locomotive locomotives, pneumatic musical arrangements. any dusts discussed below cover the works i carried out in this organization. 2. 1 Ignition constitutions The purpose of the inflammation administration of rules is to piddle a coruscate that will ignite the give the axe-air miscellanea in the piston chamber of an locomotive. It must do this at exactly the refine blatant and do it at the rate of up to several thousand times per minute for for individually one piston chamber in the railway locomotive. Currently, at that place be three distinct types of inflammation systems, The mechanic Ignition System, The Electronic Ignition System andFinally, the Distributorless Ignition System.The ele ctrical electrical distributor is the steel nucleus of the mechanical excitement system and has two tasks to perform. First, it is responsible for triggering the liberation coil to find a outpouring at the precise instant that it is required (which varies depending how fast the engine is turning and how often load it is under). Second, the distributor is responsible for directing that trigger to the proper piston chamber (which is why it is called a distributor) The spunk riffle. at that place atomic number 18 two separate circuits that go from the ignition switch to the coil.One circuit runs by a resistor in order to step down the emf about 15% in order to protect the ushers from premature wear. The other circuit sends total barrage fire potential to the coil. The only time this circuit is apply is during cranking. Since the starter draws a considerable make sense of current to crank the engine, additional voltage is take to power the coil. So when the key is turned to the skip over-loaded start position, full battery voltage is employ. As soon as the engine is running, the device driver retail stores the key to the run position which directs current by dint of the primary resistor to the coil.On just about(a) vehicles, the primary resistor is mount on the firewall and is indulgent to supervene upon if it fails. Ignition Coil The ignition coil is the heart of the ignition system. As current rises through the coil a strong charismatic field is built up. When the current is shut off, the collapse of this magnetic field to the secondary windings induces a higher(prenominal) voltage which is released through the elephantine center terminal. This voltage is then(prenominal) directed to the glint heaps through the distributor. Ignition time The time is set by relaxation method a h elderly-down neck and rotating the body of the distributor.Since the illumination is triggered at the exact instant that the points begin to unmann erly, rotating the distributor body (which the points are attach on) will change the relationship in the midst of the position of the points and the position of the distributor cam, which is on the shaft that is peddleed to the engine rotation. Ignition Wires These cables are designed to handle 20,000 to to a greater extent(prenominal) than 50,000 volts. The job of the glintling plug equips is to get that enormous power to the effervesce plug without leaking out. incite plug wires go from the distributor cap to the start plugs in a very specific order.This is called the outpouring order and is part of the engine design. individually messcel plug must only fire at the end of the compaction stroke. individually piston chamber has a crush stroke at a different time, so it is important for the individual spark plug wire to be routed to the correct cylinder. For instance, a popular V8 engine firing order is 1, 8, 4, 3, 6, 5, 7, 2. The cylinders are numbered from the f ront to the rear with cylinder 1 on the front-left of the engine. So the cylinders on the left side of the engine are numbered 1, 3, 5, 7 maculation the secure side are numbered 2, 4, 6, 8.On some engines, the right bank is 1, 2, 3, 4 while the left bank is 5, 6, 7, 8. A repair manual will tell you the correct firing order and cylinder layout for a particular engine. The next affair we need to know is what guardianship the distributor is rotating in, clockwise or counter-clockwise, and which terminal on the distributor cap that 1 cylinder is hardened. Once we break this information, we can begin routing the spark plug wires. If the wires are installed incorrectly, the engine may backfire, or at the very least, non run on all cylinders.It is very important that the wires are installed correctly. Spark Plugs The ignition systems sole reason for universe is to service the spark plug. It must provide sufficient voltage to jump the curtain raising at the tip of the spark plug an d do it at the exact right time, reliably on the order of thousands of times per minute for each spark plug in the engine. The modern spark plug is designed to destination numerous thousands of miles before it requires replacement. These electrical wonders come in many another(prenominal) courses and estrus pukes to work properly in a given over engine.The catch fire field of a spark plug dictates whether it will be alive(p) exuberant to burn off any resi repayable that collects on the tip, but not so zealoustish that it will cause pre-ignition in the engine. Pre-ignition is caused when a spark plug is so hot, that it begins to glow and ignite the kindle-air diverseness prematurely, before the spark. almost spark plugs contain a resistor to suppress radio interference. The commotion on a spark plug is also important and must be set before the spark plug is installed in the engine. If the gap is too wide, there may not be enough voltage to jump the gap, causation a misfire.If the gap is too small, the spark may be inadequate to ignite a lean evoke-air confection, also causing a misfire. The Electronic Ignition System (from 1970s to today) In the electronic ignition system, the points and condenser were replaced by electronics. On these systems, there were several modes used to replace the points and condenser in order to trigger the coil to fire. One method used a admixture wheel with teeth, usually one for each cylinder. This is called an armature or reluctor. A magnetic pickup coil senses when a tooth passes and sends a foreshadow to the control module to fire the coil.Other systems used an electric eye with a shutter wheel to send a signal to the electronics that it was time to trigger the coil to fire. These systems still need to welcome the initial timing adjusted by rotating the distributor hold. The advantage of this system, aside from the incident that it is maintenance free, is that the control module can handle much higher(p renominal) primary voltage than the mechanical points. Voltage can even be stepped up before sending it to the coil, so the coil can create a much hotter spark, on the order of 50,000 volts rather of 20,000 volts that is prevalent with the mechanical systems.These systems only experience a single wire from the ignition switch to the coil since a primary resistor is no longer needed. On some vehicles, this control module was mounted inside the distributor where the points used to be mounted. On other designs, the control module was mounted out-of-door the distributor with external wiring to connect it to the pickup coil. On many General Motors engines, the control module was inside the distributor and the coil was mounted on top of the distributor for a one piece unitized ignition system. GM called it High Energy Ignition or HEI for short.The higher voltage that these systems provided allow the use of a much wider gap on the spark plugs for a longer, fatter spark. This larger spa rk also allowed a leaner mixture for come apart burn down economy and still insure a even-tempered running engine. The early electronic systems had limitationed or no compute power, so timing still had to be set manually and there was still a centrifugal and vacuum advance built into the distributor. On some of the later systems, the inside of the distributor is empty and all triggering is performed by a sensor that watches a notched wheel machine-accessible to all the crankshaft or the camshaft.These devices are called Crankshaft Position Sensor or Camshaft Position Sensor. In these systems, the job of the distributor is solely to distribute the spark to the correct cylinder through the distributor cap and rotor. The computer handles the timing and any timing advance necessary for the smooth running of the engine. The Distributorless Ignition system (from 1980s to today) Newer automobiles have evolved from a mechanical system (distributor) to a completely solid nation electr onic system with no moving parts. These systems are completely controlled by the on-board computer.In place of the distributor, there are manifold coils that each perform one or two spark plugs. A typical 6 cylinder engine has 3 coils that are mounted together in a coil pack. A spark plug wire comes out of each side of the individual coil and goes to the appropriate spark plug. The coil fires both spark plugs at the same time. One spark plug fires on the compression stroke igniting the fuel-air mixture to produce power, while the other spark plug fires on the decimate stroke and does nothing. On some vehicles, there is an individual coil for each cylinder mounted directly on top of the spark plug.This design completely eliminates the high tension spark plug wires for even better reliability. near of these systems use spark plugs that are designed to last over 100,000 miles, which cuts down on maintenance costs. 2. 2 TRANSMISSION SYSTEMS The transmission is a device that is conne cted to the back of the engine and sends the power from the engine to the drive wheels. An automobile engine runs at its best at a authoritative RPM (Revolutions Per Minute) range and it is the transmissions job to make sure that the power is delivered to the wheels while backinging the engine within that range.Transmission Components The modern automatic transmission consists of many components and systems that are designed to work together in a symphony of talented mechanical, hydraulic and electrical technology that has evolved over the years into what many automatically inclined individuals consider to be an art form. The main components that make up an automatic transmission include Planetary Gear Sets which are the mechanical systems that provide the motley forward gear ratios as well as reverse. The Hydraulic System which uses a special transmission fluid displace under compel by an Oil Pump through the Valve eubstance to control the Clutches and the Bands in order t o control the planetary gear sets. Seals and Gaskets are used to come about the oil where it is supposed to be and hold it from leaking out. The Torque Converter which acts like a spate to allow the vehicle to come to a stop in gear while the engine is still running. The Governor and the Modulator or Throttle Cable that monitor rush along and throttle position in order to determine when to stir. On newer vehicles, shift points are controlled by Computer which directs electrical solenoids to shift oil flow to the appropriate component at the right instant. 2. 3 The engine cooling system System The chilling system is made up of the handing overs inside the engine keep mum and manoeuvres, a water supply heart to circulate the coolant, a thermostat to control the temperature of the coolant, a radiator to cool the coolant, a radiator cap to control the atmospheric mechanical press in the system, and some plumbing consisting of interconnecting waters to agitate the coolan t from the engine to the radiator.A cooling system works by sending a liquid coolant through passages in the engine blockage and heads. As the coolant flows through these passages, it picks up heat from the engine. The heated fluid then makes its way through a golosh hosepipe to the radiator in the front of the car. As it flows through the thin tubes in the radiator, the hot liquid is cooled by the air stream entering the engine compartment from the cook in front of the car. Once the fluid is cooled, it returns to the engine to absorb more heat. The water wield has the job of keeping the fluid moving through this system of plumbing and hidden passages. pic A thermostat is placed amidst the engine and the radiator to make sure that the coolant stays above a certain preset temperature. If the coolant temperature falls below this temperature, the thermostat blocks the coolant flow to the radiator, forcing the fluid instead through a bypass directly back to the engine. The cool ant will stick to circulate like this until it reaches the design temperature, at which point, the thermostat will open a valve and allow the coolant back through the radiator. In order to retain the coolant from boiling, the cooling system is designed to be pressurized.Under pressure, the boiling point of the coolant is raised considerably. However, too much pressure will cause hoses and other parts to burst, so a system is needed to relieve pressure if it exceeds a certain point. The job of maintaining the pressure in the cooling system belongs to the radiator cap. The cap is designed to release pressure if it reaches the specified upper limit that the system was designed to handle. Prior to the 70s, the cap would release this extra pressure to the pavement. Since then, a system was added to capture any released fluid and store it temporarily in a reserve tank.This fluid would then return to the cooling system after the engine cooled down. This is what is called a unlikable coo ling system. Circulation The coolant follows a path that takes it from the water pump, through passages inside the engine block where it collects the heat produced by the cylinders. It then flows up to the cylinder head (or heads in a V type engine) where it collects more heat from the combustion chambers. It then flows out last(prenominal) the thermostat (if the thermostat is opened to allow the fluid to pass), through the upper radiator hose and into the radiator.The coolant flows through the thin flattened tubes that make up the core of the radiator and is cooled by the air flow through the radiator. From there, it flows out of the radiator, through the lower radiator hose and back to the water pump. By this time, the coolant is cooled off and pay off to collect more heat from the engine. The Components of a Cooling System The Radiator Radiator Cooling Fans Pressure Cap & Reserve Tank Water Pump check Bypass System Head Gaskets & white plague Manifold Gaskets HosesTh e Radiator The radiator core is usually made of flattened aluminum tubes with aluminum strips that zigzag betwixt the tubes. These fins transfer the heat in the tubes into the air stream to be carried away from the vehicle. On each end of the radiator core is a tank, usually made of pliant that covers the ends of the radiator, Radiator Fans Mounted on the back of the radiator on the side reason outst to the engine is one or two electric fans inside a housing that is designed to protect fingers and to direct the air flow.These fans are there to keep the air flow handout through the radiator while the vehicle is going slow or is stopped with the engine running. Water Pump The water pump is made up of a housing, usually made of var. iron or devolve aluminum and an impeller mounted on a spinning shaft with a pulley affiliated to the shaft on the outside of the pump body. A cachet keeps fluid from leaking out of the pump housing past the spinning shaft. The impeller uses centrifu gal force to draw the coolant in from the lower radiator hose and send it under pressure into the engine block.There is a splatterket to seal the water pump to the engine block and prevent the flowing coolant from leaking out where the pump is attached to the block.. Thermostat The thermostat is evidently a valve that measures the temperature of the coolant and, if it is hot enough, opens to allow the coolant to flow through the radiator. If the coolant is not hot enough, the flow to the radiator is blocked and fluid is directed to a bypass system that allows the coolant to return directly back to the engine. The heart of a thermostat is a sealed copper cup that contains wax and a metal pellet.As the thermostat heats up, the hot wax expands, pushing a piston against spring pressure to open the valve and allow coolant to circulate. Bypass System This is a passage that allows the coolant to bypass the radiator and return directly back to the engine. Some engines use a rubber hose, o r a fixed steel tube. In other engines, there is a cast in passage built into the water pump or front housing. Head Gaskets and Intake Manifold Gaskets All internal combustion engines have an engine block and one or two cylinder heads. The mating surfaces where the block and head meet are machined flat or a close, precision fit, but no come of careful machining will allow them to be completely water wicked or be able to hold back combustion gases from escaping past the mating surfaces. In order to seal the block to the heads, we use a head gasket. The head gasket has several things it needs to seal against. The main thing is the combustion pressure on each cylinder. Oil and coolant must soft flow between block and head and it is the job of the head gasket to keep these fluids from leaking out or into the combustion chamber, or each other for that matter.A typical head gasket is usually made of soft sheet metal that is stamped with ridges that surround all leak points. When the hea d is placed on the block, the head gasket is sandwiched between them. Many bolts, called head bolts are screwed in and tightened down causing the head gasket to crush and form a tight seal between the block and head. Head gaskets usually fail if the engine overheats for a uphold period of time causing the cylinder head to warp and release pressure on the head gasket.This is most common on engines with cast aluminum heads, which are now on just about all modern engines. Hoses There are several rubber hoses that make up the plumbing to connect the components of the cooling system. These hoses are designed to withstand the pressure inside the cooling system. Because of this, they are subject to wear and tear and eventually may require replacing as part of routine maintenance. If the rubber is beginning to look dry and cracked, or becomes soft and spongy, or you key out some ballooning at the ends, it is time to replace them.The main radiator hoses are usually molded to a shape that i s designed to rout the hose around obstacles without kinking. 2. 4 ENGINES (INTERNAL COMBUSTION ENGINES) PETROL ENGINES Internal combustion gun engines run on a mixture of gasoline and air. The ideal mixture is 14. 7 parts of air to one part of gasoline (by w octonary. ) Since gas weighs much more than air, we are talking about a all lot of air and a tiny bit of gas. One part of gas that is completely vaporized into 14. 7 parts of air can produce tremendous power when ignited inside an engine.Air enters the engine through the air cleaner and proceeds to the throttle plate. You control the amount of air that passes through the throttle plate and into the engine with the gas pedal. It is then distributed through a series of passages called the recess manifold, to each cylinder. At some point after the air cleaner, depending on the engine, fuel is added to the air-stream by either a fuel injection system or, in older vehicles, by the carburetor. Once the fuel is vaporized into the air stream, the mixture is drawn into each cylinder as that cylinder begins its intake stroke.When the piston reaches the bottom of the cylinder, the intake valve closes and the piston begins moving up in the cylinder compressing the charge. When the piston reaches the top, the spark plug ignites the fuel-air mixture causing a powerful elaboration of the gas, which pushes the piston back down with great force against the crankshaft. Engine Types The volume of engines in motor vehicles today are quad-stroke, spark-ignition internal combustion engines. The exceptions like the diesel and rotary engines will not be covered in this article.There are several engine types which are identified by the number of cylinders and the way the cylinders are laid out. Motor vehicles will have from 3 to 12 cylinders which are arranged in the engine block in several configurations. The most popular of them are shown on the left. In-line engines have their cylinders arranged in a row. 3, 4, 5 and 6 c ylinder engines commonly use this arrangement. The V arrangement uses two banks of cylinders side-by-side and is commonly used in V-6, V-8, V-10 and V-12 configurations. Flat engines use two opposing banks of cylinders and are less common than the other two designs.They are used in engines from Subaru and Porsche in 4 and 6 cylinder arrangements as well as in the old VW beetles with 4 cylinders. Flat engines are also used in some Ferraris with 12 cylinders Most engine blocks are made of cast iron or cast aluminum.. Each cylinder contains a piston that travels up and down inside the cylinder bore. All the pistons in the engine are connected through individual connecting rods to a common crankshaft. The crankshaft is located below the cylinders on an in-line engine, at the base of the V on a V-type engine and between the cylinder banks on a flat engine.As the pistons function up and down, they turn the crankshaft just like a bicycle riders legs will pump up and down to turn the cran k that is connected to the pedals of a bicycle. A cylinder head is bolted to the top of each bank of cylinders to seal the individual cylinders and contain the combustion process that takes place inside the cylinder. Most cylinder heads are made of cast aluminum or cast iron. The cylinder head contains at least one intake valve and one unfreeze valve for each cylinder. This allows the air-fuel mixture to enter the cylinder and the destroy exhaust gas to exit the cylinder.Engines have at least two valves per cylinder, one intake valve and one exhaust valve. Many newer engines are using multiple intake and exhaust valves per cylinder for increased engine power and efficiency. These engines are sometimes named for the number of valves that they have such as 24 Valve V6 which indicates a V-6 engine with four valves per cylinder. Modern engine designs can use anywhere from 2 to 5 valves per cylinder. The valves are opened and closed by center of a camshaft. A camshaft is a rotating s haft that has individual lobes for each valve.The lobe is a bump on one side of the shaft that pushes against a valve champion moving it up and down. When the lobe pushes against the lifter, the lifter in turn pushes the valve open. When the lobe rotates away from the lifter, the valve is closed by a spring that is attached to the valve. A common configuration is to have one camshaft located in the engine block with the lifters connecting to the valves through a series of linkages. The camshaft must be synchronized with the crankshaft so that the camshaft makes one revolution for every two revolutions of the crankshaft.In most engines, this is done by a Timing Chain (similar to a bicycle chain) that connects the camshaft with the crankshaft. Newer engines have the camshaft located in the cylinder head directly over the valves. This design is more effective but it is more costly to manufacture and requires multiple camshafts on Flat and V-type engines. It also requires much longer t iming chains or timing belts which are prone to wear. Some engines have two camshafts on each head, one for the intake valves and one for the exhaust valves. These engines are called manifold Overhead Camshaft (D. O. H. C. Engines while the other type is called Single Overhead Camshaft (S. O. H. C. ) Engines. Engines with the camshaft in the block are called Overhead Valve (O. H. V) Engines. How an Engine Works The four strokes are Intake, Compression, Power and Exhaust. The piston travels down on the Intake stroke, up on the Compression stroke, down on the Power stroke and up on the Exhaust stroke. Intake As the piston starts down on the Intake stroke, the intake valve opens and the fuel-air mixture is drawn into the cylinder (similar to drawing back the speculator on a hypodermic needle to allow fluid to be drawn into the chamber. When the piston reaches the bottom of the intake stroke, the intake valve closes, trapping the air-fuel mixture in the cylinder. Compression The pisto n moves up and compresses the trapped air fuel mixture that was brought in by the intake stroke. The amount that the mixture is soused is determined by the compression ratio of the engine. The compression ratio on the average engine is in the range of 81 to 101. This means that when the piston reaches the top of the cylinder, the air-fuel mixture is squeezed to about one one-tenth of its original volume. PowerThe spark plug fires, igniting the cockeyed air-fuel mixture which produces a powerful expansion of the vapor. The combustion process pushes the piston down the cylinder with great force turning the crankshaft to provide the power to propel the vehicle. Each piston fires at a different time, determined by the engine firing order. By the time the crankshaft completes two revolutions, each cylinder in the engine will have gone through one power stroke. Exhaust With the piston at the bottom of the cylinder, the exhaust valve opens to allow the burned exhaust gas to be expelled to the exhaust system.Since the cylinder contains so much pressure, when the valve opens, the gas is expelled with a violent force (that is why a vehicle without a muffler sounds so loud. ) The piston travels up to the top of the cylinder pushing all the exhaust out before closing the exhaust valve in preparation for starting the four stroke process over again. Oiling System Oil is the life-blood of the engine. Oil is pumped under pressure to all the moving parts of the engine by an oil pump. The oil pump is mounted at the bottom of the engine in the oil pan and is connected by a gear to either the crankshaft or the camshaft.This way, when the engine is turning, the oil pump is pumping. Engine Balance The Flywheel for a four cylinder engine produces a power stroke every half crankshaft revolution, an eight cylinder, every quarter revolution. This means that a V8 will be quash running than a four cylinder engine. To keep the combustion pulses from generating a vibration, a flywheel is attached to the back of the crankshaft. The flywheel is a disk that is about 12 to 15 inches in diameter. On a standard transmission car, the flywheel is a heavy iron disk that doubles as part of the clutch system. The flywheel uses inertia to smooth out the normal engine pulses.DIESEL ENGINESpic A diesel engine is an internal combustion engine that uses the heat of compression to initiate ignition to burn the fuel, which is injected into the combustion chamber during the final stage of compression. This is in contrast to a gasoline engine (known as a gasoline engine in North America) or gas engine (using a gaseous fuel, not gasoline), which uses the Otto cycle, in which an air-fuel mixture is ignited by a spark plug. The diesel cycle was invented by German train Rudolf Diesel and it has the highest thermal efficiency of any regular internal or external combustion engine receivable to its very high compression ratio.Low-speed diesel engines (as used in ships and other applicat ions where overall engine tip is relatively unimportant) often have a thermal efficiency which exceeds 50 percent. Diesel engines are manufactured in two stroke and four stroke versions. They were originally used as a more efficient replacement for stationary steam engines. The diesel internal combustion engine differs from the gasoline powered Otto cycle by using highly compressed, hot air to ignite the fuel rather than using a spark plug (compression ignition rather than spark ignition).In the true diesel engine, only air is initially introduced into the combustion chamber. The air is then compressed with a compression ratio typically between 15 and 22 resulting into a 40-bar (4. 0MPa 580psi) pressure compared to 8 to 14 bars (0. 80 to 1. 4MPa) (about 200 psi) in the gasoline engine. This high compression heats the air to 550C (1,022F). At about this moment, fuel is injected directly into the compressed air in the combustion chamber. This may be into a (typically toroidal) void in the top of the piston or a pre-chamber depending upon the design of the engine.The fuel injector ensures that the fuel is broken down into small droplets, and that the fuel is distributed evenly. The heat of the compressed air vaporizes fuel from the surface of the droplets. The vapour is then ignited by the heat from the compressed air in the combustion chamber, the droplets continue to vaporise from their surfaces and burn, get smaller, until all the fuel in the droplets has been burnt. The start of vaporisation causes a delay period during ignition, and the characteristic diesel knocking sound as the vapor reaches ignition temperature and causes an abrupt increase in pressure above the piston.The quick expansion of combustion gases then drives the piston downward, supplying power to the crankshaft. study advantages Diesel engines have several advantages over other internal combustion engines They burn less fuel than a petrol engine perform the same work, due to the engine s higher temperature of combustion and greater expansion ratio. gasolene engines are typically 25 percent efficient while diesel engines can convert over 30 percent of the fuel energy into mechanical energy. They have no high-tension electrical ignition system to attend to, resulting in high reliability and easy adaptation to give away environments.The absence of coils, spark plug wires, etc. , also eliminates a descent of radio frequency emissions which can interfere with navigation and communication equipment, which is curiously important in marine and aircraft applications. They can deliver much more of their rated power on a continuous basis than a petrol engine. The life of a diesel engine is generally about doubly as long as that of a petrol engine due to the increased strength of parts used, also because diesel fuel has better lubrication properties than petrol. Diesel fuel is considered safer than petrol in many applications.Although diesel fuel will burn in open ai r using a wick, it will not explode and does not release a large amount of flammable vapor. The low vapor pressure of diesel is curiously advantageous in marine applications, where the accumulation of explosive fuel-air mixtures is a particular hazard. For the same reason, diesel engines are immune to vapor locking. For any given partial load the fuel efficiency (mass burned per energy produced) of a diesel engine remains nearly constant, as opposed to petrol and turbine engines which use proportionally more fuel with partial power outputs. They generate less waste heat in cooling and exhaust. As with petrol engines, there are two classes of diesel engines in current use two-stroke and four-stroke. The four-stroke type is the classic version, tracing its lineage back to Rudolf Diesels prototype. It is also the most commonly used form, being the preferred power source for many motor vehicles, especially buses and trucks. Much larger engines, such as used for railroad locomotion and marine propulsion, are often two-stroke units, offering a more favourable power-to-weight ratio, as well as better fuel economy.The most powerful engines in the world are two-stroke diesels of mammoth dimensions. Two-stroke diesel operation is similar to that of petrol counterparts, except that fuel is not confused with air before induction, and the crankcase does not take an active role in the cycle. Normally, the number of cylinders are used in multiples of two, although any number of cylinders can be used as long as the load on the crankshaft is counterbalanced to prevent excessive vibration. The inline-six cylinder design is the most fertile in light to medium-duty engines, though small V8 and larger inline-four displacement engines are also common.Five cylinder diesel engines have also been produced, being a compromise between the smooth running of the six cylinder and the space-efficient dimensions of the four cylinder. CHAPTER THREE 3. 0 PROBLEMS ENCOUNTERED Below are some of the problems I encountered in the course of my industrial attachment initial obstruction in carrying out certain laborious jobs, such as tightening/ loosening of nuts and bolts lack of technical know how on what to do without close supervision, during the first few weeks of attachment. Restricted relations with staffs, during my first few weeks of attachment, due to unfamiliarity . initial difficulty in fitting into the workshops practices, and Initial difficulty in navigating the workshop. 3. 1 CONCLUSION/ RECOMMENDATION Haven fully participated in the Students Industrial Work Experience scheme(SIWES) programme, which allowed me to experience and practice first hand, the practical aspects of my chosen field of study I wish to make the future(a) recommendations 1.That the authorities in-charge should ensure better welfare for students carrying out the SIWES programme. 2. The Industrial Training Fund officials and university based supervisors should be encouraged to pay mor e visits to thier students on attachment, so as to cut down cases of students refusing to participate in the training. 3. The various companies students are attached to should ensure better welfare for students attached to their various organizations. 4. The safety of students in the SIWES programme should be uppermost in the minds of managers in the various companies students in this programme are attached.Hence safety gadgets/wears/equipments should be provided for students at places of attachment as this would reduce the risk of accidents. 5. The organizations should ensure that the students attached to their respective firms are properly motivated. 3. 2 REFERENCE TECHNICAL drive in HOW A MANUAL FOR DELTA STEEL COMPANY TRANEES(1989) WIKIPEDIA APPLIED THERMODYNAMICS, BY MACKONKEY. (1990) variant 1 Organizational Set-up for delta steel company Nigeria Limited Monitoring Unit Rolling millBoard of Directors General motorbus Audit Unit Legal Services/Company Secretary Assistant General Manager Purchasing Statistics/Planning S. M. S Administrative/Finance Pellet plant Supporting Staff Preventive maitainance Over hauling workshop weld/Fabrication vulcanizing Billing sever Packing Officer Accountant Cashier I Managing Director Workshop Supervisor Admin. Manager Purchasing/ run Security Stores Secretary Supply Stores Officer Clerks Auto electrical convention 3 Organ gram for the heavy duty department.

Are People Inherently Honest? Essay

at that place be numerous theories that attempt to excuse the pauperism tush community acting in certain shipway. This subject will address three of these theories, apply these theories to how state take up to suffer h iodinestly or dis frankly, and will attempt to determine whether or not plenty atomic number 18 inherently h matchlessst.Before olfactory sensationing into the motivation behind masss termination to be h championst, it is important to define nearly key terms in order to fully understand and look for what it means to be inherently honest. Merriam-Webster defines honest as free from dissembler or deception, or simply put, truthful. It defines inherent as belonging by nature or habit. The majority of throng simply associate something universe inherent as natural or innate. Interestingly, this definition expands our descry on what one may consider inherent by noting how sometime(prenominal) habits can also play a vital role in how one conducts.Now that we have defined what honesty and inherent deportment entails, we can now look at the various theories that attempt to send the motivation behind people behaving honestly. One of these theories is the fact that humans choose to act honestly or not based on what we thumb is mor altogethery good or the right thing to do gibe to a very personalised adjust of rules and morals. An individuals behaviours are heavily influenced in order to satisfy this individual set of rules.Of course, there are a number of positions one can take on when defining this set of rules. Deontologists would argue that one should be honest one hundred percent of the time, regardless of the situation. They believe that it is ones moral obligation to act honestly and have a duty of adhering to this universal rule. On the otherwise hand, utilitarianism claims that the decision to act honestly or deceitfully varies depending on the situation, considering all costs, benefits, and consequences that will result from the behaviour.Regardless of the persons moral standpoint, their extract to behave honestly or not is strongly influenced by their personal, or inherent, set of behaviours that they consider morally right. This supports the argument that people are in fact inherently honest. Another theory that attempts to explain the motivation behind behaving honestly is focused on the consequences that will result from behaving honestly or shoddyly. Uri Gneezys paper on the role of consequences in double-dealing looks at how different benefits and costs influence ones decision to behave honestly or dishonestly.From his studies, he comes to a number of conclusions describing how people conduct a cost-benefit analysis when decision making to lie or not. First, he finds that people are particularly sensitive to their personal gain when deciding to lie, meaning that they place a high priority on personal gain in their cost-benefit analysis. He also finds that people also list to lie l ess when the lie harms another party. However, this harm plays less of a role in choosing not to lie compared to the increased gains from lying.This alludes that the marginal personal gain from a lie is greater than the marginal harm that is caused from the lie. Because people are constantly trying to maximize their personal utility, these findings display how one will behave dishonestly when doing so maximizes their utility. This suggests that people do not inherently behave honestly, but rather behave in a way that will create the most personal gain. A trinity theory that explains how people behave is based on the image that is associated with behaving honestly or dishonestly, as well as the use of excuses to disengage dishonesty.There tends to be a negative stigma attached with lying therefore, people are inclined to be honest simply to maintain a positive image of themself. There are a number of ways to look at this. First, people have a natural relish to see themselves in a positive light and like to expression that they are doing what is right. Much of this plays into the previously discussed individual set of morals that people have and doing what they consider morally right.However, there are cases when people create excuses to justify to themselves that acting dishonestly is the right thing to do. For example, if a man lies by telling his pregnant wife that she doesnt look over presst, he will justify this lie to himself by claiming that he doesnt want to hurt her feelings, maintaining a positive image of himself. In addition, people will tend to lie less to avoid making a bad impression to others. Similarly to above, people may use excuses to justify acting dishonestly, simply to maintain their positive impression on others.This shows that in order to maintain a positive impression of oneself on oneself as well as on others, people are inclined to behave honestly and are willing to make excuses to justify acting dishonestly to maintain this impr ession. This suggests that due to the natural desire to create and maintain a positive impression, people are inherently honest. The above theories and discussion suggest both that people are and are not inherently honest. This is barely why many social scientists have difficulty in this area.On one hand, people behave honestly to satisfy their personal set of morals and to promote a positive image of themselves (in their own as well as others eyes), but are willing to be dishonest if it results in enough personal gain to justify the lie. From this, we conclude that one cannot make an overarching statement claiming that people are or are not inherently honest. Whether a person is inherently honest depends on how they weigh and balance the importance of their morals, personal gain, their self-image, and the image they want to portray to others.

People of the Kalahari: the Kung Culture Essay

The multitude of the Kalahari relieve oneself a precise nonaggressive way of living. They atomic number 18 secluded from the rest of the world, so they live in truth different lives. In order for them to survive in the Kalahari, they have to be good at hunting and gathering foods. Because the kung people live in small groups of people that consists of at most 15 huts in the modify season and 20 huts in the rainy season it is important to them to have peace among the people. They have very little crimes and or violence. Stealing is not a problem because when food is gathered, and game is killed foreveryone gets a portion.There is no need for stealing because the people share. Trust between the people is very strong. Every day the Kung people will gather around the burn up and smatter and have discussions. Because there is little crime among the people, there is no need for discipline. But on rare occasions that there is a crime, everybody will gather and have a group discussi on. As they talk around the fire, they make sure to discuss things that both or lift them. When something happens, that stirs emotions like anger, hate, or jealousy they make sure to figure bulge what has caused it and to fix it to keep the peace.The Kung people are nomadic they never interference in one area for very long. In the Kalahari piddle is an innate part of animateness, without it you could not survive. And since there is little water and it barely ever rains, the Kung people have to be near water. They move their villages to places that have water at reasonable distances that they can walk to. The people cant drive to the super market or to a restaurant when their hungry, life is harsher than that in the Kalahari. If they need food, they have to hunt or gather it.The Kung people are excellent hunters. They use embitter tipped arrows to shot their game. The poison tipped arrows are used as a sedative and puts the tool to sleep, and eventually kills it. But because the poison is slow acting, the people have to haunt their prey until it dies. The people are gatherers they gather foods like roots, berries, fruits and nuts. The people of the Kalahari are a very peaceful culture. To survive they have to know the bring and experts in hunting and tracking their prey, and gathering foods inorder to survive in the Kalahari.

Hardwork

In the many million years of human history,man has been immensely successful in making his immediately better than his yesterday. Elf he had not shown the capacitance of uplifting and aggrandize himself,he would have not had the salutary to call himself the Crown of Creations and Gods Viceroy on Earth. Halls prodigious Journey from ardent fire with stone to building up huge dams for generating electricity,from living In caves to constructing skyscrapers and unimaginably comfortable residences are all the exult of his unflinching agitate and hardwood.Respected Listeners, Man has developed a tremendous ability of bringing the floods,the storms and still the earthquakes under his control. He has brought the laborious Journeys on foot to an end and has invented ships,cars,trains and surprisingly high speed airplanes. Just by his struggle and diligence,man has enabled himself to accomplish these keen miracles alongside many more baffling ones. Mr President,The luxuries and comforts which we are enjoying today are unquestionably the result of those hardworking benefactors of humanity who burnt the midnight oil,ignoring their rest,forgetting their sleeps,putting deflexion their physical and even spiritual needs. Someone has rightly said, The heights which wide men reached and kept were not attained by sudden flight, For when their friends and family slept they worked Ann toiled throughout the night making his today better than his yesterday. He had not shown the capability of Crown of Creations and Gods Viceroy on Earth.

Learning to Read and Write

Alana Roberts Essay I February 26th, 2013 development to allege and Write by Fredrick Douglas is a story about a striver breaking the bondage of ignorance by learning to exhibit and write. During the line of work of 7 years Douglas discreetly teaches himself to read and write by intend of stealing newfoundspapers, trading food with poor washcloth boys for be intimateledge and books, as well as copying his ensures handwriting. Douglas learning to read gave him extreme aw beness of his condition as he says I would at times feel that learning to read had been a curse rather than a blessing.It had given me a view of my wretched condition, without the remedy (Page 168-169). With his new consciousness he suffered with depression envying his fellow slaves for their stupidity. But, like a avowedly underdog, Douglas perseveres and through hope he escapes to the freedom of the North. Theres a quote by Harriet Tub art object I freed a thousand slaves, and could construct freed a th ousand to a greater extent if they had kn aver they were slaves. Throughout the essay Douglas evaluates his slave masters ignorance, his fellow slaves ignorance, and most importantly his own.The interpretation of a slave is a person legally owned by some other and having no freedom of action or right to property. A nonher definition says slave means a person under the domination of another person or some habit or influence. Douglas finds proof of the flaw ideology that is thralldom through the book The Colombian Orator. The book validates Douglass belief of human rights and gave him ammo to use against slaveholders who thought otherwise. The dilemma in him learning this illuminating information is his inabi lighteny to figure a expression out of thraldom.Douglas writes It was this everlasting thinking of my condition that tormented meI precept nothing without seeing it, I heard nothing without hearing it (Page 169). etiolated slave owners made it unlawful for slaves to re ad and write, this ignorance kept them in a state of limbo which stopped their evolution. Without the capacity to examine their situation, they did not wobble their situation and stayed in this wheel of oppression and exploitation. Ignorance also befalls on the oppressors.Douglas sheds soft on how slave owners prayed to Christ, went to church every Sun twenty-four hour period and yet mal do by people to the upmost degree and punished them for reading. Southerners often justified slavery by saying they were bringing Christianity to slaves. Christianity is a religion based on love and compassion for your fellow man. Since the Europeans did not believe the Africans were worthy to be in the same human category as them they dehumanized them relating them to animals. Although the leger says we must never treat any part of Gods creation with contempt.When we do, we are indirectly treating our Creator with contempt. If they did not believe slaves were worthy to be treated as Gods creat ion then why did they push button their religion on them? The answer is to keep them controlled and conf utilize. Europeans stripped Africans of their traditions starting with their name, this in some degree made Africans like blank canvases ready to be painted anew. Christianity gave slaves hope that one day their situation will limiting if they prayed hard enough and abide by Christ crys. It also gave them a brand new vision of what God should look like. White is good, barren is bad.In the Christian bible they saw Jesus as a white man so in turn they could birth bring upd the integrity of Christ to the goodness of their masters. Some slaves even so argued about whose master was more kind. I guess this is what Douglas was referring to when he called his fellow slaves stupid. I relate the South hypocritical belief system to that of the Catholic Church during medieval Times. The church dominated everyones lives using fear as a means of getting whatever they wanted from its be lievers. From a very other(a) age, the people were taught that the only way they could get to Heaven was if the Roman Catholic Church ap lay downd them.Just like slaves of America many people could not read or write which kept the priests in power. Peasants worked for free on the church land to pay their tithe or to not have the burden of total damnation. The hypocrisy of Christians of the South exemplifies his mistress who he depict before as Having bread for the hungry, clothes for the naked, and comfort for every sorrower that came within her reach (Page 167). Under the influence of slavery the angelical fair sex he knew turned into that of a demon in her conquest to prove her superiority over him.With praying to white Jesus not working, Douglas expresses a unsafe side when talking about contemplating suicide. I often found myself regretting my own existence, and wishing myself dead and but for hope of being free, I have no doubt but that I should have killed myself (Page 16 9). To counter this skin perceptiveness of hopelessness he birthed a new objective, find the meaning of the word abolition and how it related to himself. Douglas speaks on his ignorance as he writes It was always used in such connections as to make it an interesting word to meI found it was the act of abolishing but then I did not know what was to be abolished.Here I was perplexed. I find it humorously ironic that he is a prime example of what a abolitionist is and going to stupefy but there was a point in time were he didnt recognize what the word meant. Using context clues Douglas unmask the line up meaning of abolition when reading an article on abolishment of slavery in the District of Columbia. In conclusion Fredrick Douglass Learning to Read and Write maturely examines the world in which he lived in. Though Douglas was a slave physically he was never a slave mentally.He analyzes and challenges the average in his quest for freedom and because of Douglass thirst for knowled ge he escapes the bondage of ignorance. Douglas also points out that learning doesnt make the man free but it is how you use this knowledge to obtain freedom. In our day and age we take for granted things like owning a book, going to school, even the simple principle of being who we want to be. Douglas is a hero to dark-skinned Americans as well as people who believe knowledge is power. clear Cited Learning to Read and Write by Fredrick DouglasThe Brief McGraw-Hill Reader http//www. sparknotes. com/lit/narrative/themes. hypertext markup language Narrative of the Life of Frederick Douglass http//www. historylearningsite. co. uk/medieval_church. htm The Medieval Church http//www. goodreads. com/ causation/quotes/18943. Frederick_Douglass Fredrick Douglas Quotes http//www. billygraham. org/articlepage. asp? articleid=6217 Christian view on treatment of animals http//www. cliffsnotes. com/study_guide/literature/life-of-frederick-douglass/critical-essays/douglass-canonical-status-heroi c-tale. html