Women in Tennessee Williams A Streetcar Named Desire and...

Women in Tennessee Williams A Streetcar Named Desire and Arthur Millers Death of a Salesman The part of Stella and Linda are both archetypal female figures in that they follow the typical fictional role of the submissive wife and mother. In A Streetcar Named Desire, Stella DuBois (renamed Mrs. Stanley Kowalski) supports and forgives her husband, defending him against any criticism. Likewise, in Death of a Salesman, Linda - the only female character with any import - is a meek, timid figure around her husband. This weakness is underscored by the sentence structure and diction that each character uses when in conflict with their husband. As both Tennessee Williams and Arthur Miller are men, it can be seen that their female†¦show more content†¦It is possible that many men desire this sort of unconditional support and forgiveness - who ever wants to be blamed for their mistakes and behavior - but it is unrealistic to show a woman who tolerates this action even to the point that they end up hurting their husband, or another character. Lindas blindness leads indirectly to Willys suicide, and Stellas unwillingness to open her eyes to Stanleys actions ends with Blanche being taken away to a mental institution. Both of these characters also forgive their husbands in spite of their abuse, and back down during any conflict. Stella in scene 3 is hit by Stanley; during the poker scene he gives a loud whack of his hand on her thigh. All that Stella does in reproach is say, Thats not fun, Stanley. During scene 8, Stanley yells at both Stella and Blanche: What do you two think you are? A pair of queens? Stellas reaction is only to cry weakly, asserting her inferior position to Stanley. Lindas problem is verbal abuse. Willy continually yells at her for simply trying to talk: Will you stop!; Will you let me talk?; Dont take his side all the time, goddammit. WhenShow MoreRelatedEssay on Death of a Salesman and Street Car Named Desire4007 Words   |  17 PagesBiff: â€Å"will you take that phony dream and burn it before something happens† Compare how the authors of Death of a salesman and â€Å"street car named desire explore the conflict between truth and illusion Truth and illusion are utilized in Tennessee Williams â€Å"Streetcar Named Desire† and Arthur Millers â€Å"Death of a salesman† through the use of the character; to lead the reader to a possible conclusion on the beliefs that went into the American dream that prompted people to work hard was that americaRead MoreEssay on 103 American Literature Final Exam5447 Words   |  22 PagesAmerican culture and rejecting the influences of Europe (C) international in nature, bringing together American and European culture (D) a rejection of America and American experiences 13. In 1920, what development changed social and political life for women? (A) They were denied the legal right to drive automobiles. (B) They gained the right to vote. (C) Congress passed the Equal Pay Act, banning sex discrimination in pay in a number of different professions. (D) They were prohibited from enrolling in

The Eight Stages Of Personality Growth - 1327 Words

The purpose of this paper is to focus on two of the eight stages of personality growth. Erik Erikson an ego psychologist created a theory on personality development evolution that states it is a continuous process through the lifetime of an individual. Erikson suggested culture also plays an essential role in a society s perception and consideration of normal and considered abnormal. Erikson (1950, 1963), does not speak about psychosexual Stages as Freud, though influenced Freudian ideas. Erikson broadens on Freudian thoughts by focusing on acclimatize and creative characteristic of the ego, and escalating the stages of personality development to progress throughout the entire life. Erik taught the ego develops as it successfully resolves predicaments that are distinctly social. Erikson suggested that the human development process functions by a series of stages, which defined as the epigenetic principle of development. The beginning level of psychosocial development, is developing trust and it is an ongoing process, we respond to the crisis of helplessness and dependency by building up a sense of trust or a sense of misgiving. Trust, the more adaptive, desirable way of coping, is obviously the healthier psychological attitude. However, each of us must also cultivate some degree of mistrust as a type of protection from becoming gullible. Erikson believes the first psychosocial crisis occurs during the first year (corresponding to Freud s oral stage ofShow MoreRelatedAnalysis Of Erick Erickson Theory748 Words   |  3 Pagesof psychosocial development which are comprised of eight stages. His concepts were the ones I could identify with prior to taking Human Growth and Development course. This theory is based on the stages in which certain types of conflicts are being resolved which trigger conflicts at various stages. My knowledge of Erick Erickson is he placed high emphasizes on the impact culture and society has on the ego logical level. Before taking Human Growth I never took the general time to understand each levelRead MoreErik Erikson s Theory Of Psychosocial Development884 Words   |  4 Pagesmarked an important shift in thinking on personality; instead of focusing simply on early childhood event, his psychosocial theory looked at how social influences contribute to personality throughout the entire lifespa n. Erik Erikson died May 12, 1994 due to prostate cancer. (Erik Erikson, 2015). Stages of Psychosocial Development Comprehension of Erikson’s eight stages of psychosocial development requires an understanding of several basic points. First, growth takes place according to the epigeneticRead MoreAnalysis Of The Book Mcadams 1154 Words   |  5 Pagesand narrative approaches that recent researcher and theories have apply to understand human behavior. This article integrates recent theories and researchers of life stories as illustrated the investigation of self-understanding, personal memory, personality structure and change, and the relations between the personal lives and cultural. The article provides a numerous of psychologist stories and the contributions they have made in the psychology fields. McAdams, 1985 has argued that personal lifeRead MoreThe Psychoanalytic Approach . And Some Of The Influential987 Words   |  4 Pageslong time and have their roots in one’s childhood, unlike problems that develop from certain stressors or trauma. According to Sigmund Freud (2010) our personality develops in stages during childhood. If conflicts within a particular stage of development are not resolved, then we could develop fixations that can manifest later in personality-related behaviors, such as adult thumb sucking, bed wetting, etc. (nthdimension, 2010) The use of free association, dream analysis, hypnosis and transferenceRead MoreErik Erikson s Theory Of Psychology760 Words   |  4 Pagesfive different stages. He called these stages, oral, anal, phallic, latency, and genital. Freud explained that conflicts that occur during each of these stages can have lifelong impact on person’s personality and behavior (Cherry, 2016, pg. 5). Erikson expanded his theory by developing an eight-stage theory of psychosocial development. These stages described growth and change throughout the lifespan which focused on social interaction and conflicts that emerge during different stages of developmentRead MoreErik Erikson Was An Ego Psychologist Who Emphasized The1607 Words   |  7 Pagesdeveloped a theory of psychosocial stages where he believed a crisis occurs at each of the eight stages of development. Erik Erikson was influenced by Sigmund Freud, who emphasized the conflict between the id and the superego, but unlike Freud, Erikson be lieved that the ego develops as a result of successfully resolving crises in eight distinct stages that expand a lifetime. Successful completion of each stage results in a healthy ego, however, failure to complete each stage results in an unhealthy viewRead MoreErickson ´s Stages of Development1122 Words   |  5 PagesStages of Development There are many theories used to explain human development. All of the different theories have been helpful in understanding the different stages of growth and development. Having learned the different theories gave me a better understanding on how I can take care of my patients and gain insight on what motivates human thought and behavior. The theory that best fits my perception of the stages of development is Erikson’s Theory because of the belief that personality developsRead MoreMy Identity Essay1167 Words   |  5 Pagesclothes that are comfortable, based on our personality, choices, religion, and the weather or season. My family and friends both impact me in many different positive ways with social activities. Also, college influences me with speeches, creativities and have given me many opportunities to achieve goals in my life. Moreover, Erikson development has eight distinct stage. Eriksons psychological growth Erikson believe push humans everywhere through these eight psychological crisis. Later conflict mayRead MoreChild Development Theories1324 Words   |  6 Pagesbehavior and what is normal, or typical, in growth and development in the early months and years of life. Three developmental theories are broken down to understand the concepts, points of similarity and difference, and the interaction of cognitive, physical, and emotional development of a child. The three theorist perspectives analyzed in this essay include Erikson, Kohlberg, and Piaget. Erikson’s Psychosocial Stage Theory Erikson’s view Erikson’s theoryRead MoreErik Erikson s Psychosocial Theory Of Development1582 Words   |  7 Pagesbelieved developed with successful crisis resolving throughout life (â€Å"Erikson’s Stages†, 2007). He proposed the life-long model of development, consisting of eight stages. Erikson assumes that in every stage of development, there is a crisis that the individual must overcome despite the conflict of their psychological needs and the needs of society (McLeod, 2008,  ¶9). With achievement of the basic virtue associated with each stage, the individual can move forward with their development. The conflict between

Euthanasia Essay Physician Assisted Suicide - 1566 Words

Envision yourself laying in a hospital bed hooked to numerous machines. The doctors and nurses are constantly coming in always to determine the status of your health while you’re attempting to get what little rest you can through the suffering your feeling, weakness and pain endlessly throughout your body. On top of that you re experiencing symptoms from numerous medications, blockage, wooziness, you can barely breathe and the fact that you’re continually ill. The doctors have given you a zero percent chance of survival; and your demise is inescapable, it s simply a question of when? You ve said your farewells. Presently in the event that you had the opportunity to pick how your life finished, how would you choose it? In physician†¦show more content†¦Laws accommodate that a physician must only diagnose an ill patient that has a future of only six months or less and a second doctor then must agree with the diagnosis (Worsnop, 1). Patients must request the presc ription twice verbally and once in written form with at least two weeks hold up between the first and last request (Worsnop, 1). Lastly the doctor who writes the prescription must believe the patient is mentally competent to make the decision. The law also requires that patients be able to take the pills on their own (Worsnop, 1). I believe that it is important to listen to and acknowledge the patient when they express suffering, hopelessness, and depression. I believe that physician-assisted as well as voluntary Euthanasia should be legalized. I believe physician assisted suicide isn’t a â€Å"this is right, this is wrong† thing. Individuals have the privilege to bear arms, the right to speak freely, and so on. So why would we be able to not have the flexibility to settle on a choice on whether we need to live or not? At the point when a patient is considering physician assisted suicide anyway, we should be permitted to get physician assisted suicide and determine wh y this a patient wants and why is getting this help. Overall I believe that physician assisted suicide should be permitted to the individuals who wants and has a

The construction and sustainable technology- MyAssignmenthelp.com

Question: Discuss about the Construction and Sustainable Technology. Answer: Introduction The building elements contain all elements that are part of the construction of a building primarily. Examples are walls, doors, beams, and they are tangible and exist physically. The following are some of the building elements that are used in contemporary commercial and domestic buildings: Foundation, Ground floor, Upper floors, Roof structure, Windows, and External Walls. The report is about the evolution of a building structure that is used in contemporary commercial and domestic buildings. The building element that is discussed in this report is the external walls(American Institute of Architects, 2016, p. 126). The construction of external walls defines the walls adjacent to the outside section of the building. This research paper is about the evolution of the external walls, environmental impacts, and alternative materials that can be used in the construction of external walls. Evolution of External walls In the period of early brick work, there were a number of improvements in making bricks during the 1700s. Better techniques of moulding blended clays, and more even firing resulted in greater uniformity in the size and shape of the brick. In late 1600, the popular colours of the bricks were purples and reds which gave way to softer colour brown in the 1730s. By 1800, the production of stocks of yellow London provided the colour of the brick not much different from natural stone. The machines of moulding and improved mixing together with best techniques for firing enabled the production of brick to attain new heights(Architects, 2009, p. 158). The bricks were obtainable in different types of shapes, colour, and strength that would not have been imagined previously in a hundred years. The better techniques of quarrying enabled extraction of deeper clays which produce dense and strong bricks utilized in works of civil engineering such as bridges and canals(Architects, 2007, p. 269). Brick Bonding was the next stage after early brick work. By the end of 19th century, a majority of the houses possess walls of a single brick thickness. Houses of storeys had walls that are thicker normally reducing in thickness at every level of the upper floor. The majority of the houses were built in a bond of Flemish even though few walls or walls were hidden by render were mostly laid in a bond of garden-wall(Beadle, 2013, p. 147). The stonework was the next stage after brick bonding. The stone was normally used in regions where it occurred naturally or for prestige. In upland areas, a stone was the obvious choice for building because it was available readily. There are three categories of stones which include sedimentary, igneous, and metamorphic. Sedimentary group comprise of sand stones and limestone which accounts for most of the stones used in the construction. Rubble walling is found in numerous styles at its cheapest.(California, 2013, p. 159). In a majority of cases, a stone wall has to be thicker than a brick-wall. The stone-work which is dressed or cut finely is normally referred to as dimension stone or free stone; meaning that it can be worked with a saw and a chisel in any direction. It is free from laminations and has fine grains and is pronounced bedding plains. During the 18th century, the whole city was rebuilt and build with stones. It was economical to build the whole wall in free stone and a backing material or brick work(Christensen, 2017, p. 219).In a majority of houses, only the elevation of the front side will be built in free stone, the back and sides being built with bricks or rubble. The bonding stones were used in bonding the two halves of the walls together. These structures were made with mortar of lime that slowly became hardened. Hydraulic lime was unknown and was not common since they were expensive. Also, they always set quickly leading to more wastage on the site(Christensen, 2017, p. 193). The mortar was the next stage after stonework. The lime mortar was available until the 1930s. Chalk or limestone was burnt with coal to form quick lime that was mixed with water and with fine aggregates to form the motor. Alternative choice was to utilize lime which has silica naturally. During the 1930s and 1940s, motor cement replaced lime. Lime was normally added to the mix to improve its quality, durability, and working(Doug Oughton, 2010, p. 239). Pointing followed the mortar as the next stage in construction. In the periods of early 1900s, the joints were normally finished flush or recessed slightly. The joints were normally eight millimetres or less where better quality bricks were used. This, together with the use of dust brick in a motor meant that the motor had little effect on the appearance of the building. Tuck-pointing was reserved for the best work quality. It can be categorized into two parts which are bedding-motor which contain an aggregate to match with the brick's colour or a thin ribbon and stonework of line pointing to end the joint(Engineer, 2012, p. 217). The diagram below shows the 19th-century pointing: Cavity Walls followed the pointing as the next stage in construction. Many houses were built with cavity walls in the 19th century. The cavity walls were very cheap to build than the counterparts which are made of solid walls. Also, they offer improved thermal insulation and good protection from harsh weather. The brickwork of external leaf was built in facing brick and the interior leaf in common. The little cavity walls of early had an exterior leaf which has a thickness of one brick and in some form of the building. The diagram below shows an example of early cavity walls(Stein, 2009, p. 148). The 1930s to 1960s external wall followed the cavity walls in construction. During this time, the walls of cavity changed significantly. The motors became cement based instead of lime based since the faster motor setting made the construction to be faster. For the inner leaf of cavity walls, the common material was block-work. The blocks were made with the industrial waste or aggregate stone. During this time, several houses were built in construction style which was not traditional styles by the use of panels or frames of pre cast; in some occasion, insitu panels(Smith, 2016, p. 193). The 1970s to 1980s external walls was the next stage of evolution of the external walls. During the 1970s, there was a slow improvement of standard insulation, the optimum value of U of 1.70 was introduced to find out the ability of the wall to heat transmission. To achieve this level was very easy; a brick exterior leaf, cavity of 50 millimetres, plus block interior leaf that is dense completed with 13-millimeter plaster of light-weight. In 1980, the optimum value of U decreased to one; this needed block-work of light weight in inner leaf. From this period up to date, the blocks of light weight have been made from concrete which is aerated. They were made from lime, cement, sand, and powder of aluminium. After these constituents are combined with boiling water, the powder of aluminium mixes with lime to form the pockets of hydrogens which are minute(Siegenthaler, 2012, p. 197). Modern Cavity walls formed the next stage of evolution of the external walls. During the 1990s, the optimum value of U reduced further to 0.45 which usually needed a thick inner leaf that is lightweight or insulation cavity. There are three choices, which need lightweight or block which is aerated in the interior leaf. They include the cavity with a dry lining that is insulated, insulation board that partially fills the cavity, and insulation batts which fill the cavity. There is a possibility of building walls which are solid but not using the bricks, the accepted level of insulation can be gotten only by aerated concrete. The modern cavity wall has a U value six or five times better than the counterparts of the 1920s(Portman, 2014, p. 279). Also, the cavity widths have increased beyond 50 millimetres eighty years ago. Wall Tires followed modern cavity walls in construction. Wall tires are the common stainless steel. There are numerous patterns which include the washer for holding insulation board in position against the inner leaf. Modern Mortars followed the wall tires as the next stage of evolution of the external walls. Modern mortars are made from sand and cement. Lime which is hydrated is introduced frequently into the mixture to give out the full of plastic and to make it much workable. Lime improves the ability of the motor to deal with moisture and thermal movement. Recently, it has become common to use the pre-mixed mortar. These are distributed to the site in containers which are sealed and ready for use. They normally have retarder and remain usable for 36 hours to 48 hours of more(Lars Engstrom, 2010, p. 169). At the termination of this time, they improve on strength as normal mortars. The joint phase may be completed in many ways, the most common are joints that are tooled where the pressing of the mortar occurs to the brick-work and give the best protection of the weather since the tooling compresses and smoothers the joint. Environmental Impacts of External Walls The environmental impacts of the components making up the external walls can be categorized in terms of its design, selection, manufacture, maintenance, disposal, reuse, installation, and use. Use and Selection The components making the external walls have numerous impacts on the environment when they are used in the constructions as explained in this section. The solution of clay brick may be better since the components used in making it by the manufacturers are all environmental friendly; the components include the clay soil and water. The structure of a concrete wall could have poor performance on the environment than the bricks of clay in terms of wood emission to the water, and also emission from the materials used during the construction(Stein, 2009, p. 124). The solution of a concrete block may have good performance on the environment than the solution of the clay brick in terms of climatic change and the consumption of energy and water. The solution of auto-craved aerated concrete could have a good performance of the environment than the clay bricks or concrete blocks that are normal in acidification of the atmosphere, production of inert waste, and emission to the air but bad in the water consumption. Disposal The disposal of the components of the clay bricks has less environmental effects when disposed of compared to the normal concrete block since the components making the clay brick can be disposed of without any effect on the environment.The structure of a concrete wall could have poor performance on the environment than the bricks of clay in terms of wood emission to the water, and also emission from the materials used during the construction due to the production of cement.(Robert Judson Clark, 2016, p. 214). The solution of auto-craved aerated concrete could have a good performance of the environment when disposed of than the clay bricks or concrete blocks that are normal in acidification of the atmosphere, production of inert waste, and emission to the air but bad in the water consumption. The timber wall of lightweight may have good performance to the environment when disposed of than the concrete blocks, clay, structural concrete or walls of the steel frame in terms of the consumption of energy, global warming, and emissions to soil and air. The cellular concrete can be used in covering rubble without polluting the soil.(Austroads Limited, 2013, p. 187). Reuse Some of the components of the external walls may be reused with less waste being released into the atmosphere while other components cannot be reused at all. The solution of clay brick can be recycled after being in a construction for a long duration hence making it environmentally friendly. The clay bricks may often be reclaimed for re-use during the demolition of the structure. The re-use of the structures made of concrete is a method of utilizing the rabble. The re-use has a benefit that makes it more attractive and friendly to the environment. The auto-craved aerated concrete may be reused though the application may cause a problem due to a high amount of sulphate that is leachable and are not friendly to the environment. The re-use of the wooden boxes of wall frames can add details which are unique to the walls decoration and are environmentally friendly. The re-use of timber wall is environmentally friendly since the timbers are chipped into wood chips and are used in power plants or power homes. The re-use of timber wall is a more sustainable. The re-use of cellular concrete is economical since it utilizes reusable materials and also have characteristics which prevent the increase in deterioration(California, 2013, p. 236). The Manufacture During the manufacture of the components used in making the external wall, there are some environmental impacts faced in the processes. In the manufacture of clay brick, the environmental impacts that will be observed include the interference of the soil structure, emission of smoke to the atmosphere leading to the destruction of the ozone layer, and deforestation when woods from trees are used to make the clay bricks. This solution could have a lower performance of the environment than a normal concrete block in this environmental category. The manufacture of blocks and bricks in either concrete or clay utilized energy, however, the investment of embodied energy is repaid by longevity of the material. During the manufacture of clay brick, the emission of huge elements that are toxic from the bricks causes the environmental and health hazard. In the manufacture of the concrete wall, the process of making cement results to the high level of carbon dioxide emission which is not friendly to the environment. During the manufacture of frame wall, the production of carbon monoxide, phenol, and formaldehyde which irritate the environment causing acidification of the air. The manufacture of timber wall has a high environmental impact, the combustion of fossil fuel leads to the environmental degradation and global warming(Littlefield, 2010, p. 269). Maintenance A properly constructed and designed brick work need little maintenance since it will not require another coating or painting in managing the moisture.The maintenance of clay brick and the concrete wall should be done through proper measures since any release to the atmosphere may lead to global warming, change in climate, acidification, inert waste production, emission to the atmosphere, and consumption of energy(Galinsky, 2010, p. 169). Installation During the installation of autoclaved aerated concrete as it rains, it can crack after the installation and cause the environmental degradation. The installation of cellular concrete reduces the amount of excavation, minimize site disruption, reducing carbon, saving time, and money hence fewer effects on the environment. Local production reduces distances for shipping building materials, minimize the requirements for fuel for handling and transportation hence reducing carbon dioxide emission. The installation of cellular concrete, concrete block, timber wall, and frame wall should be carried out properly since improper misuse may lead to a change in climate, acidification, emission to the atmosphere, and consumption of energy(Engineer, 2012, p. 247). Selection The selection of the components to use in building the external wall is based on the effects of the components will have on the environment. The cellular concrete is a light weight concrete that is good for environmentally friendly building. It is made by combining air, lime, water, cement, and sand. The aluminium powder reacts with lime to release hydrogen gas to create the air bubbles. After hardening, the materials density becomes fair and contain numerous bubbles of air and produces thermal features. The cellular concrete and the wooden structures should be selected during the construction of the external walls(Mike Riley, 2013, p. 247). Alternative materials to use in External Walls The alternative building materials that can be used in constructing an environmentally friendly external walls include wooden structure, cellular concrete, insulating load bearing clay brick, and euromac structure. The reason why they are considered as alternative choices for constructing external walls are explained below: Wooden structure: Wood occupies a place in green building approach. There are numerous different possible terms of wooden structure. The walls can be made using beams of solid wood, walls will laminated timber, and glued, and wooden structures of the frame which is good for the environment of urban as they look identical in conventional construction.(California, 2013, p. 168). Wood naturally protects itself since it contains polyphenol which has the effects of disinfectants. It is also a good hygrometric and thermal regulator. Insulating load bearing clay brick: The bricks are becoming important in the approach of green building. It does not need insulating cladding on either outside or inside sides. It has admirable performance since it is durable and resistance to regulation. The brick of insulating clay gives technology that makes deployment simple(American Institute of Architects, 2016, p. 198). It emits nontoxic gases in the event of combustion. The brick is involved in the absorption of heat from the system of heating and redistribute it through the process of radiation and hence reduce the consumption of energy. Euromac structure: This system of construction consists of two cladding insulation wall made of a high density of expanded polystyrene joined by two spacer metals that are reinforced in their lateral part by flat bands of metals. The concrete is then poured in the cladding up to 3.5 meters. This system of the wall is protected from seismic and have a variable width and properties of thermal insulation which provides insulation and effect from fire depending on the wall's thickness.(Siegenthaler, 2012, p. 136). Cellular concrete: This is a light weight concrete that is good for a sustainable building. It is made by combining air, lime, sand, cement, and water. The powder of aluminium reacts with lime to release hydrogen gas to produce the bubbles of air. After hardening, the material's density becomes fair and contain numerous bubbles of air and produces thermal features. The cellular concrete can be recycled and can be used in covering rubble without polluting the soil.(Christensen, 2017, p. 278). Conclusion The building elements that are used in contemporary domestic and commercial buildings include foundation, ground floor, upper floors, roof structure, and windows. This report specifies on the evolution of external wall which is an important building element. The evolution of the external wall followed the sequence starting from early brickwork, brick bonding, stonework, mortar, pointing, cavity walls, the 1930s to 1960s, 1970s to 1980s, modern cavity walls, wall ties, and modern mortars. It is necessary to consider the future development potential of the external wall that has been discussed below: Future development potential of the external wall The following are some of the technologies which will be used in future for the development of the external wall: Technologies for remodeling the external walls: This would be the case for curtain walls for high constructions or part of walls in the flats or residential blocks. This procedure will make it possible to reach large sections of buildings with a crane of the building which could be beneficial when a large part of the building is remodeled(Mike Riley, 2013, p. 138). Technologies for applying exterior layers: External insulation is the preferred method for adding insulation to the building which is exciting. This method minimizes the loss of space since it is possible to work which the building is in use and also avoid moisture problem and thermal bridge. Technology for inserting material in cavities in the walls which are existing: Walls with cavity can improve their temperature property when the materials are put inside these cavities. This will be the future development of the external wall. Technology for applying interior insulation: The new part of the construction will be made to the carrying system of the external existing wall, floor dividers, and internal bearing wall(Christensen, 2017, p. 159). The environmental effects of the external wall include climate change, global warming, acidification, eutrophication, and atmospheric emissions. The alternative materials that can be used in the construction of the external wall include euromac structure, wooden structure, insulating load bearing clay brick, and cellular concrete. Bibliography Abdelmonem, D. M. G., 2015. The Architecture of Home in Cairo: Socio-Spatial Practice of the Hawari's Everyday Life. India: Ashgate Publishing, Ltd. Alan Blanc, M. M. R. P., 2013. Architecture and Construction in Steel. Paris: Taylor Francis. American Institute of Architects, K. E. H., 2016. Architectural Graphic Standards. Michigan: John Wiley Sons. Architects, R. I. o. B., 2007. RIBA Journal, Volume 67. China: RIBA Services Limited. Architects, R. I. o. B., 2009. Journal of the Royal Institute of British Architects, Volume 67. Berlin: The Institute. Austroads Limited, E. C., 2013. Building and Construction Procurement Guide: Principles and Options. Paris: Austroads Limited. Beadle, L., 2013. Tall Buildings and Urban Habitat. London: CRC Press. California, T. U. o., 2013. Architect and Engineer, Volumes 140-143. New York: The University of California. Christensen, A. C., 2017. Separation Scenes: Domestic Drama in Early Modern England. Brazil: U of Nebraska Press. Doug Oughton, S. H., 2010. Faber Kell's Heating and Air Conditioning of Buildings. California: Routledge. Doug Oughton, S. H. R. M. B., 2014. Faber Kell's Heating Air-conditioning of Buildings. Berlin: Routledge. Engineer, W. A. a., 2012. Western Architect and Engineer, Volumes 142-143. London: McGraw-Hill Company of California. Galinsky, K., 2010. Classical and Modern Interactions: Postmodern Architecture, Multiculturalism, Decline, and Other Issues. California: University of Texas Press. Lars Engstrom, S. r. f. b. (., 2010. Summary of Energy in the built environment: the way forward to the 1990s. Sweden: Swedish Council for Building Research. Littlefield, D., 2010. Metric Handbook. London: Routledge. Mike Riley, A. C., 2004. Construction Technology 2: Industrial and Commercial Building. Michigan: Palgrave Macmillan. Mike Riley, A. C., 2013. Construction Technology 1: House Construction, Volume 1. Paris: Palgrave Macmillan. Portman, J., 2014. Building Services Design Management. Berlin: Wiley. Ragette, F., 2013. Traditional Domestic Architecture of the Arab Region. California: Edition Axel Menges. Robert Judson Clark, A. P. A. B. D. I. o. A. M. M. o. A. (. Y. N., 2016. Design in America: The Cranbrook Vision. California: Metropolitan Museum of Art. Siegenthaler, J., 2012. Modern Hydronic Heating: For Residential and Light Commercial Buildings. London: Cengage Learning. Smith, A., 2016. The differential use of constructed sacred space in Southern Britain, from the Late Iron Age to the 4th century AD. London: Archaeopress. Stein, B., 2009. Building Technology: Mechanical and Electrical Systems. Michigan: John Wiley Sons. Stein, B., 2009. Building Technology: Mechanical and Electrical Systems. Michigan: John Wiley Sons.