Architecture Properties for Controlling Air for Hygiene

Architecture Properties for Controlling Air for Hygiene Properties of Air Earths atmosphere is composed of air. Air is a mixture of gases of 78% nitrogen and 21% oxygen with traces of water vapor, carbon dioxide, argon, and various other components. Air is a uniform gas with properties that are averaged from all the individual components. Air at sea level static conditions for a standard day depends on the pressure and temperature of the location on the earth and season of the year. Gas is composed of a large number of molecules which are in constant and random motion. Air pressure and temperature changes from day to day, hour to hour, and sometimes even minute to minute during severe weather. Standard value of air shown in the diagram are just average values used by engineer in assist to design and calculate machines. Gravity is the key important factor because it holds the atmosphere to the surface. As altitude changes, the state-of-the gas factors will change, which is why the typical values given are at static conditions sea level. As altitude increases, air density, pressure, and temperature decrease. Wind Direction and Speed Understanding Wind. Wind can be defined as a simple of air movement across the earths surface and can be in any direction. which is cause by the differences in air density, thus causing in horizontal differences in air pressure greatly than it causes the vertical pressure. These pressure systems are essentially the cause and result of spatial differences in atmospheric pressure/circulation. There are general characteristics to describe wind, wind Speed and wind Direction, which create different types of wind. Examples of wind include breeze, which is a long duration of low speed wind; gusts, a short burst of high speed wind; strong immediate winds like squalls; and lastly strong intense winds like hurricane or typhoon. Wind speed is the velocity obtained by a mass of air travelling horizontally through the atmosphere. The common measurements for wind speed are kilometres per hour(kmph), miles per hour (mph), knots and meters per second by using a anemometer. The direction of wind is measured by an instrument called a wind vane. There are two main that effect wind direction and speed Pressure-gradient force Coriolis force and friction. *and lastly friction. These factors work coherently to change the wind in different directions and at different speeds. Pressure-Gradient Force Pressure gradient force is the primary force influencing the formation of wind. Wind always blows from high pressure area to low pressure area on a horizontal gradient. Vertically, wind flow from low pressure area to high pressure area. This pressure gradient force that causes the air in motion and causing the air to move in motion with increasing speed down the gradient. Uneven heating on the earths surfaces causes the continual generation of these pressure differences. The greater the pressure difference over a certain horizontal distance, the greater the force and therefore, the stronger the wind. On weather map surfaces, the variations of air pressure over the earths surface is indicated by drawing isolines of pressure, called isobars. The spacing of the isobars indicates the amount of pressure change over a given distance. The closely space in the isobar show steep pressure gradient indicate strong winds, relatively, widely spaced isobars indicate a weak pressure gradient and light winds. The Coriolis force The rotation of the Earth creates another force, known as the Coriolis force which effects the direction of the wind and other object objects in motion in very predictable ways. Newtons first law of motion The law of Inertia, state that forces are balanced. Air will remain moving in a straight line unless it is altered by an unbalancing force. Instead of wind blowing directly from high pressure area to low pressure area, Coriolis force opposes the pressure gradient acceleration and changes the moving air direction. Wind is deflected to the right of the gradient in the Northern Hemisphere, while in the Southern Hemisphere wind is deflected to the left. Key note* Coriolis force only effect the wind direction and not the wind speed. There is no deflection of winds on the equator of the earth, but maximum deflection at the poles Friction layer Wind Friction is the last force that influenced both speed and direction winds. Friction is only operative only close to the Earths at about 2,000 feet above earths surface. Friction greatly reduces speed of surface air and reduces the Coriolis force. As a result, the reduced Coriolis force alter the pressure Gradient force, to move the air at right angles across the isobars toward the area of lower pressure. Surface winds on a weather map does not blow parallel to the isobars in geostropic and gradient wind, instead surface wind cross the isobars vary at an angle from 10 to 45 degrees. Over the ocean where frictional drag is less, and reduced the angle to as little as 10 degrees. Hospital and Air General Principles of infection control Isolation precaution is an important strategy in the practice of infection control. The spread of some infections can be impeded if infected patients are segregated from those who are not infected yet. Although there is no single study showing the effectiveness of isolation. The concept of isolation can be traced back to biblical times when lepers were segregated from the rest of the populace. Towards the end of 19th century, there were recommendations for patients with infectious desease to be placed in separate facilities, which ultimately became known as infectious diseases hospitals. However, in the early 1950s, many of these infectious disease hospitals closed and the patients were moved to general hospitals. The need for proper isolations of infections in the context of general hospitals thus become an important issue. Spatial separation is critically important when using isolation precautions because many infectious airborne contaminations are spread mainly through direct contact when patients are near to one another. Special ventilation controls are required for diseases that can be transmitted over long distances by droplet nuclei (x). However, most diseases are not of this category. Proper isolation is critically important for infectious diseases that can be transmitted through long distance which can result in large clusters of infection in a short period. Infection Control and Isolation Practices Three level of controls must be considered when using isolation precautions. When setting up levels of control for isolation system in hospital, attentive attention must be given for the system to work effectively. Failure in doing so will result all three levels not working and supporting each other. First level of control Administrative control is the first level of control measure that needs to be taken to ensure that the entire system proceed effectively. Implementing proper procedures for triage of patients Detecting infections early Separating infectious patients from others Transporting the patients Educating the patients and staff Designating responsibilities clearly and correctly Communicating with all relevant partners Second level of control environmental and engineering controls is the second level so isolation. Cleaning of the environment Spatial separation Ventilation of spaces Third level of control The third level of control is to further decrease the risk of transmission of infectious disease Personal protection Provide personal protective equipment Sanitor provided in hospital Uses of Air Pressure Differences in Hospital In a hospital setting, certain populations are more vulnerable to airborne infections including immune-compromised patients, new-borns and elderly people. This also include hospital staff and visitors can also be exposed to airborne infections as well. Negative Room Pressure to Prevent Cross Contamination A negative pressure room in a hospital is used to contain airborne contaminants within the room. In the hospital is surrounded by harmful airborne pathogens include bacteria, viruses, fungi, yeasts, moulds, pollens, gases, volatile organic compounds, small particles and chemicals are part of a larger list of airborne pathogens. Negative pressure is created by balancing the rooms ventilation system so that more air is exhaust out from the room than it is supply. A negative pressurize room is architecturally design so that air flows from the corridor, or any adjacent area into the negative pressure room. This is to ensure and prevent airborne contaminants from drifting to other areas of the hospitals and contaminating patients, staff and sterile equipment. Rooms to be Pressurize Negatively According to the 2014 FGI Guidelines and Standard 170-2013, there are a list of rooms in healthcare architecture that needs to be negatively pressurized. ER waiting rooms Radiology waiting rooms Triage Restrooms Airborne infection isolation rooms Darkrooms Cytology, glass washing, histology, microbiology, pathology, sterilizing laboratories and nuclear medicine Soiled workrooms Soiled or decontamination room for central medical and surgical supply Soiled linen and trash chute rooms Holding rooms Autopsy rooms Janitors closets Architecture Design for Negative Pressure Room In a well-designed negative pressure room, there should only be one source of air input to the room. Air is pulled through a gap under the door, other than the small opening, the room should be air tight as possible to prevent air from entering. Room must be regularly maintained to prevent any crack or opening in the room. There are certain criteria and guidelines that a negative pressure room should fulfilled A negative pressure differential of †° 2.5 Pa Isolation room with †°12 air changes per hour (ACH) for new building, †°6 ACH in existing old buildings An airflow differential >123-cfm (56 l/s) exhaust Airflows from clean to dirty Sealing of room, allowing approximately 0.5 square feet (0.046 m2) leakage An exhaust to the outside With recent approval from World Health Organization guidelines, natural ventilation can be used for airborne precaution rooms. Positive Pressure in Healthcare Design Healthcare centre are surrounded by pollutions, germs and airborne infection, and these can severely be hazardous to patients, healthcare employees and visitors when exposed. Visitors in healthcare centre are usually patients suffering from allergies, asthma, cardiopulmonary diseases, hyper sensitive to chemicals or having a weaker immune system and are seriously threatened by airborne micro-biological contamination could worsen their condition. Room adjacent to a negative pressure room are positive pressure. Positive pressure in rooms is to ensure that airborne pathogens do not contaminate the patient or supplies in that room. Operation room are example use of positive pressure, which is use to protect the occupant and sterile medical and surgical supplies. The design intention of a positive pressure room is to optimize the condition for clean, invasive procedure, thus reducing infectious risks to patient. These rooms are often considered the cleanest room in a healthcare facilities. Examples of positive pressure procedure rooms Cardiac catheterization or interventional radiology in a radiology suite Trauma or emergency surgical procedure rooms Other invasive procedures such as the insertion of pacemakers or electrophysiology procedures carried out in other locations of inpatient and outpatient facilities Criteria for a positively pressurise operating room †°15 air changes per hour (ACH) airflow out of the room Examples of Drawing Layout for Negative Isolation Room Reference: http://www.mintie.com/assets/img/resources/ASHRAE_Article-on-VentilationChanges.pdf http://www.tsi.com/uploadedFiles/_Site_Root/Products/Literature/Brochures/Room-Pressure-Solutions-for-Healthcare-Facilities_2980067_US.pdf Positive Pressure vs Negative Pressure When total cubic feet per minute from supply air is more than return air, the room is under positive pressure and the air will flow out of the room. (Supply air > Return air) When return air is more than supply air, the room is under negative pressure and the air will flow into the room. (Return air > Supply Air) CHAPTER 3 ARCHITECTURE PROPERTIES OF CONTROLLING AIR Architecture Natural Ventilation of Health Care Facilities Ventilation Contemporary healthcare centre relies heavily on mechanical ventilation to keep indoor spaces ventilated and pressurise. The uses of mechanical ventilation require high amount energy and often do not work as expected. Equipment failure, poor maintenance, utility service and other management failure may interrupt a normal mechanical operation in healthcare centre. Instead of being an important system for controlling disease and infection, failure in mechanical ventilation systems may result in uncontrollable spread of disease through health-care facilities which could cause huge problem, outbreak of diseases. To ensure performance of mechanical system is not compromised, high cost of money is needed for installation and maintenance cost for the operation. Backing up all mechanical ventilation equipment is expensive and unsustainable is required for continuous operation if the system services a critical facility. Conditional recommendation when designing naturally ventilated healthcare facilities, overall airflow should bring the air from the agent sources to areas where there is sufficient dilution. Ventilation Ventilation the common term use in contemporary architecture, and is an important factor in building design. Ventilation provide healthy air for breathing by moving outdoor air into a building or a room, and channels the air within the building or each respective room. There are three basic elements in building ventilation to be considered: Ventilation Rate ventilation flow rate can be referred to as the absolute amount of inflow air per unit time and the air-change rate as the relative amount of inflow air per unit time. (Annex X.) Airflow Direction the overall airflow direction into a building. Air distribution or airflow pattern each part of the space should be distributed by the external air in an efficient manner. Air flown pattern effects the way airborne pollutants is removed in an efficient manner because pollutants is generated in each part of the space. Natural Ventilation One of the fundamental aspects of architecture is to provide comfort to the inhabitant. This is done by wall insulating, heating, protecting from the sun and managing fresh air intake. Natural ventilation enhances air quality by dissolution of pollutants and refreshing thermal comfort in building. Ventilation based on natural forces should always be preferred to mechanical ventilation especially in European climates, as it can efficiently complete comfort and energy objectives without mechanical energy consumption. Driving Forces of Natural Ventilation From our understanding from chapter 2 (Architecture and Air) that wind is a natural phenomenon causes by pressure-gradient force and coriolis forces therefore is the most influential factor for natural ventilation. Wind creates air flow insides building by creating high and low pressure on different building facades. These movement is strongly dependent on wind pressure gradients. Wind flow and wind pressure distribution. The second natural forces affecting natural ventilation Differential of indoor and outdoor air density causing thermal buoyancy force, stack pressure. Natural ventilation drives outdoor natural air into building envelope openings and other architectural purpose-built openings include windows, doors, solar chimneys, wind towers and trickle ventilators. Wind pressure and stack pressure are two of the natural forces that drives natural ventilation and is important Wind Pressure When wind flows around a building, it can produce a very high suction pressures. Pressure is induced on the building when wind strikes a building. Positive pressure on the windward face which is the direction of upwind from the building; negative pressure on the leeward face, pulling rather than pushing on the building. This drives the air to flow through windward openings into the building to the low-pressure openings at the leeward face. Windward pressure differs along the height of the building, while the leeward pressure is constant. These pressures occur mainly on the leading edges of the roof, and the cladding on these areas has to be firmly fixed to the structure and the roof has to be firmly held down. The wind pressure generated on a building surface is expressed as the pressure difference between the total pressure on the point and the atmospheric static pressure. Wind pressure data can usually be obtained in wind tunnels by using scale models of buildings. If the shape of building, its surrounding condition and wind direction are the same, the wind pressure is proportional to the square of outdoor wind speed. Thus, the wind pressure is usually standardized by being divided by the dynamic pressure of the outdoor wind speed. The standardized wind pressure is called the wind pressure coefficient and symbolized as (Cp). The outdoor wind speed is usually measured at the height of the eave of the building in the wind tunnel. Calculation for wind pressure acting on the building surfaces can be found in Annex X. Natural Architectural Ventilation System Windows and Openings Cross flow Trickle Ventilators Wind Screen Stack Pressure Stack pressure or thermal buoyancy force is generated from the air temperature or humidity difference (sometimes defined as density difference) between indoor and outdoor air. This difference generates an imbalance in pressure gradients of the interior and exterior air columns, causing a vertical pressure difference. Air buoyancy allows movement of air into and out of buildings, chimneys, flue gas stacks or other containers. The effectiveness of stack ventilation is influenced by the effective area of openings, the height of the stack, the temperature difference between the bottom and the top of the stack and pressure differences outside the building. There are two effective uses of stack ventilation which occurs in a room and stack effect in a high-rise building. Examples two different uses are given as below. When the room air is warmer than the outside air, the room air is less dense and rises. Air enters the building through lower openings and escapes from upper openings; on the other hand, when the air is colder than the outside air, the room air is denser than the outside air, the direction of air flow is reverse to an insignificant degree. Air is then entering the building through the upper openings and escapes through the lower openings. Stack driven flows in a building are driven by indoor and outdoor temperatures. The ventilation rate through stack is the result of pressure differential between two openings of the stack. When air heat up, it becomes less dense thus more buoyant, causing air to rise up. Understanding the properties of air in chapter 2, we are able to use this effect to naturally ventilate buildings. Cooler air from outside of the building is drawn into the building at the lower level and is heat up by user, equipment, heating or solar heat gain within the building. Hot air that rises up in the building is vent out at a high level. The tendency of warm air to rise results in pressure differences at various levels of the building. Pressure on the lower levels and basements of a building falls below the atmospheric pressure. On the upper levels of the building, pressure of air will be higher than atmospheric pressure. In between the point of high pressure and low pressure zones lies the neutral pressure plane where the pressure will be neutral. Internal air pressure above the neutral plane will be positive pressure, forcing air to be drawn out the building; wheres, below the neutral plan e, the internal air pressure will be negative and drawing air into the building. The neutral pressure plane is often located at the vertical mid-point of the building. A building with similar leakage rates at all levels will have neutral plane at the mid-point. However, when the basement is leaky and sealed top floor of the building, the building will have a lower neutral pressure plane. Similarly, when the building has a leakier top floor and sealed basement the neutral pressure plane will be higher than the mid-point. Natural Architectural Ventilation System Solar Chimney and Atrium Trombe Wall Bernoulis Principle Identical to stack ventilation using air pressure for passive ventilation, except the difference between bernoulis principle and stack ventilation is where the pressure difference comes from. Unlike stack ventilation which utilizes temperature difference to move air, bernoulis principle uses wind speed difference to move air. In general principle of fluid dynamics, faster moving air has lower pressure. This lower pressure can help suck fresh air through the building. From an architectural point of view, outdoor air further from the ground is less obstructed, causing it to move faster than air at lower altitude, thus resulting in lower pressure. Site surrounding is an important factor to be accounted for, with less obstruction for wind to travel. Natural Architectural Ventilation System Example use of Bernoulis principle are wind cowls and wind tower which utilizes the faster winds above roof tops for passive ventilation. Wind Cowl Fast roof top wind is scooped into the building through the intake valve and at the larger outlet valve creates lower pressure which naturally suck the air out. Stack effect will also help to pull air out through the same exhaust vent. Architectural Design taking Advantage of Stack Ventilation and Bernoulis Principle Designing for stack ventilation and Bernoullis principle are similar, and a structure built for one will generally have both phenomena at work. In both strategies, cool air is sucked in through low inlet openings and hotter exhaust air escapes through high outlet openings. The ventilation rate is proportional to the area of the openings. Placing openings at the bottom and top of an open space will encourage natural ventilation through stack effect. The warm air will exhaust through the top openings, resulting in cooler air being pulled into the building from the outside through the openings at the bottom. Openings at the top and bottom should be roughly the same size to encourage even air flow through the vertical space. To design for these effects, the most important consideration is to have a large difference in height between air inlets and outlets. The bigger the difference, the better. Towers and chimneys can be useful to carry air up and out, or skylights or clerestories in more modest buildings. For these strategies to work, air must be able to flow between levels. Multi-story buildings should have vertical atria or shafts connecting the airflows of different floors.

Socio Economic Study

Economic Benefits As part of the agricultural sector, the banana industry also ensures that It contributes to the protection of the environment through the observance of globally accepted practices and abiding by Philippines laws. Furthermore, the industry also makes positive Impact on the cultural political aspects through: Enameled contact with the Influence Insurgency; Improved peace and order situation; Effective local governance; Integration of Indigenous people (e. G. Bugaboo, Nabob, Muslim) Into mainstream society: and Better understanding of cultures.The Banana industry impact on the economy includes: Provision of employment (minimum wages, Job security); Development of related industries (transport, food, consumer goods, entertainment); Increased income opportunity (cash crop, I. E. Corn, rice, firewood gathering vs.. Employment); Prompts improved infrastructure support from government and private organizations; Increased tax collection for local government. In terms of soci al impact, the industry helps provide: Basic needs through the availability of food, housing, clothing, and employment; Education increased number of students;Health care availability of institutional care; Migration back to family instead of having to look for livelihood elsewhere; Equal opportunity for women and indigenous people; and Fewer occurrences of domestic and Juvenile related crime and conflicts. The Philippine banana industry Is the 5th largest export Industry In the country and the indulges in Mindanao. In terms of local tax contribution, the Industry remitted about Phi Million worth of local taxes In 2008, Including Business Tax, Real property tax, Residence Certificates of Employees, withholding tax of employees, withholding tax at source, and Income.Socio Economic Study By EX_Donald As part of the agricultural sector, the banana industry also ensures that it contributes Furthermore, the industry also makes positive impact on the cultural political Minimized contact w ith the influence insurgency; Integration of indigenous people (e. G. Bugaboo, Nabob, Muslim) into mainstream society; and Better understanding of cultures. The Philippine banana industry is the 5th largest export industry in the country and the indigents in Mindanao. In terms of local tax contribution, the industry remitted about Phi Million worth of local taxes in 2008, including Business Tax, Real

The Problem Solution Essay Topics for Middle School Diaries

The Problem Solution Essay Topics for Middle School Diaries Think about the issues that you encounter in the organizations and produce solutions for them. Should you look around, you are going to observe social difficulties that affect society each day. You simply need a couple of problems as remember you don't have a lot of time and you want to spell out the difficulties. There are lots of problems, even on your own campus, which need to be resolved. The Foolproof Problem Solution Essay Topics for Middle School Strategy Observing the example can help you understand what things to write and the way to arrange your words to create decent problem solutions topics. You'll learn what an issue and solution essay is, where it is possible to get examples, what the very best structure is, the significance of special topics, and just a list of 101 fresh issue and solution essay topics. Whenever you have so many topics to speak about, choose what you're passionate about and it's going to be super-easy that you develop a considerable argument for it. All you will need is a simple topic. Though it appears to be a tough endeavor, you can locate many terrific topics. Aside from that, it's also feasible to locate a number of essay topics on healthcare and child labour too. Sex education is extremely sensitive topic. The Pain of Problem Solution Essay Topics for Middle School In the opening, you will be necessary to paint a crystal clear picture of the issue. To begin with, attempt to know the source of the issue and its possible causes. Consider if the problems are addressed without needing to spend a lot also. Write down why it is a critical problem that deserves attention. The Unexposed Secret of Problem Solution Essay Topics for Middle School A solution essay presents an issue, describes what the writer thinks is the ideal solution to the issue, and then supports her or his pick of solution. Let's talk about the simple issue and solution essay ideas. Always offer you concrete solution and expound to your reader why it's the ideal solution. Tell your readers why your solution is the best option out of the rest of the solutions. What's more, it's also recommended to opt for a topic with practical or viable solutions. State issue and explain why a solution has to be figured out. Where to Find Problem Solution Essay Topics for Middle School Once you have discussed the very first portion of the essay, which is in fact the issue, move on to its second part solution. If you realize that there is some type of a problem explained in the endeavor, and you're requested to give possible way outs, then you ought to repeat the issue and solution definitions. After stating the issue, you must then provide a solution to the issue. Another important problem is the development of internet fraud and hacking. Essay is a sort of academic papers that students write in the center school. Fast Food in School A great deal of students would lik e to buy fast food in school. Parents should monitor their kids' use of social networking in order to safeguard them. During the duration of your academic career, whether at school or university, you'll probably have to write a minumum of one problem solution essay. You might also be in a position to find some intriguing samples from your teacher. A seasoned professional will make an error-free assignment right away and can help you boost your grades. Don't go from the goals you have set in your essay writing so you may attain the desired effects that you wanted. There are many things involved with writing an essay it's most effective to keep in mind the fundamentals. When prior brainstorming is finished, you might begin drafting your essay. When you're assigned to compose a problem-solution essay or research paper, selecting a fantastic topic is the initial dilemma you must work out. The issue and solution essay examples on the page will direct you on the ideal approach you need to take for writing your paper. Enable the plan lead you on how you should compose your essay. Problem solution essay is among the most popular academic assignments. Issue arrangement essay is a kind of an exploration paper in which you portray a particular issue and try to discover a way of comprehending it.

The Narrative of the Life of Frederick Douglass - 1527 Words

â€Å"Nobody can make you feel inferior without your permission†-----Eleanor Roosevelt. During the eighteenth century African people were considered â€Å"property† of their slaveholders and had no control over their own life. They were victims of psychological and physical brutal treatment. This story represents confinement, slavery and the lack of power African people had in such a racist society back in those days. African talents were absolutely wasted and they were considered inferior to white individuals. The â€Å"Narrative of the Life of Frederick Douglass† simply addresses that white society was causing negative effects to itself and that slavery must be abolished in order to shape a better world. The depicted brutality narrated in†¦show more content†¦Therefore, it is now easier for the society to understand why slavery is not healthy for a nation’s development and that society in general has learned through education that all human beings have equal rights. In addition, education not only made Frederick Douglass a free man, but also freed his fellow African slaves from the oppression of those brutal slaveholders. Besides, followed by Frederick Douglass’ educating himself, and learning that he had the right to be free, he is automatically pushed to rebel, tired of the cruelty of his current master and injustices committed against him. This becomes the turning point of the narrative and is followed by Frederick Douglass’ plan to pursue his so dreamed freedom. Mr. Covey and Frederick Douglass got engaged into a two-hour fight that Frederick Douglass won. Covey even asked a worker for help in the middle of the fight, a call that was ignored by the worker probably because Frederick Douglass was muscle build and strong; hence, and would easily make him sit in the blink of an eye. After this incident happened, Mr. Covey never whipped Douglass again, an act that gave Frederick Douglass the strength and motivation to keep rebelling until he could attain his absolute freedom. It is clearly understood that no person can put up with so much unfairness and that after so much abuse in different areas of society, unity among a population will always speak for itselfShow MoreRelatedNarrative Of The Life Of Frederick Douglass987 Words   |  4 PagesLife of Frederick In the â€Å"narrative of the life of Frederick Douglass an American slave written by himself† Frederick reveled to audience the time he was living as a slave and the moments of brutal treats for example psychological, emotional and physical abuses. He was suffering terrible moments during his 20 years as a slave in the twentieth century. In addition, he describes in his own words the strategies he used to escape from the slave holders and to be free. This story the â€Å"Narrative of theRead MoreNarrative Of The Life Of Frederick Douglass Essay1102 Words   |  5 PagesDate Narrative Of The Life Of Frederick Douglass Writing in the favor of black people has always remained controversial from the very beginning. Critics regard such writing as â€Å"a highly conventionalized genre† indicating that â€Å"its status as literature was long disputed but the literary merits of its most famous example such as Frederick Douglass s Narrative of the Life of Frederick Douglass†¦are widely recognized today.† (Ryan:537) Despite of such severe resistance, writers like Douglass have pennedRead MoreThe Narrative Of The Life Of Frederick Douglass1566 Words   |  7 PagesThe â€Å"Narratives of the Life of Frederick Douglass† is the story of Frederick Douglass’ life from the time he was born into slavery, to the time he escaped to freedom in the north. When Douglass wrote this book, slavery was still legal in a large portion of the United States. After Douglass’ escape to freedom and his continuation of his education, he became an abolitionist through his works of literatu re and speeches. In â€Å"The Blessings of Slavery†, by George Fitzhugh he states that southern slavesRead MoreNarrative Of The Life Of Frederick Douglass1257 Words   |  6 PagesBook Review By Mary Elizabeth Ralls Narrative of the life of Frederick Douglass: An autobiography written by Frederick Douglass Millennium publication, 1945edition 75 pages Frederick Douglass whose real name was Frederick Augustus Washington Bailey approximately birthdate is in1818, the month or day is not known, he died in 1895. He is one of the most famous advocates and the greatest leaders of anti-slavery in the past 200 or so years.Read MoreNarrative Of The Life Of Frederick Douglass Essay1498 Words   |  6 Pagessoutherners believed that one of the most essential means of life was slavery. In the novel, Narrative of The Life of Frederick Douglass, Douglass challenges and debunks the idea of slavery being a necessary part of the white lifestyle; many pro-slavery arguments consisted of religion justifying slavery, slaves being â€Å"easily manipulated†/ignorant, and slavery keeping the southern economy from disappearing (The Proslavery Argument). Frederick uses personal experiences and other tactics to expose theRead MoreNarrative Of The Life Of Frederick Douglass1730 Words   |  7 PagesOne of the most well-known slavery narratives wa s lived and written by Frederick Douglass, Narrative of the Life of Frederick Douglass. Frederick Douglass was a civil rights activist who was born into slavery on a plantation in eastern Maryland in February 1818. His exact birth date is unknown, he states in his narrative, â€Å"I have no accurate knowledge of my age, never having seen any authentic record containing it.†2 His birth name was Frederick Augustus Washington Bailey, which was given by hisRead MoreThe Narrative Of The Life Of Frederick Douglass1363 Words   |  6 Pages In The Narrative of the Life of Frederick Douglass, Frederick Douglass portrays the importance of education because of its influence in leveling the playing field between the races in the 1800s. Education and knowledge are themes that are heavily dwelled upon throughout the novel, inspiring the reader to see the full power of such important ideals and to take the full advantage of both at all times. Douglass gives the reader a new appreciat ion for education as he delivers his message regardingRead MoreNarrative Of The Life Of Frederick Douglass1255 Words   |  6 PagesFrederick Douglass, throughout Narrative of the Life of Frederick Douglass, uses religion to get many of his points across. In one way, religion plays a huge role in Douglass’ ability to become literate throughout the text. With the Bible and other Christian texts, Douglass is able to further his ability and the ability of others to read. This becomes important because as Douglass points out the slaveholders believe a literate slave is not a good slave. This union of literacy and religion show theRead MoreThe Narrative Life Of Frederick Douglass1583 Words   |  7 Pages‘The Narrative Life of Frederick Douglass’ is an autobiography of Frederick Douglass, the slave who escaped and became one of renowned social reformers of his time. The book is a collection of actual experiences of the author during his time in slavery and experienc es of fellow slaves. He describes brilliantly the oppressive conditions into which he was born, lived, as well as his struggles and triumphs. The author meant to make the reader comprehend life of the African Americans in slavery beforeRead MoreThe Narrative Of The Life Of Frederick Douglass939 Words   |  4 PagesRevolutionary Freedom In 1845, an African-American man named Frederick Douglass released a thought-provoking autobiography that would become a turning point in revolutionary change. The Narrative of the Life of Frederick Douglass was the first autobiography Douglass had written focusing on the real life struggles he has faced during his time spent in bondage. During his time, it was not common for an African-American to have the skills to read and write, and it was especially uncommon to publish