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Adam and Eve Breaking the Social Construct With John...

Man above woman, or woman above man? For the entirety of human civilization, this question of gender hierarchy has been divisive issue. Regardless, Milton does not hesitate to join the heat of the battle, and project his thoughts to the world. Since the publication of Paradise Lost, many of Milton’s readers have detected in his illustration of the prelapsarian couple, particularly of Adam, a powerful patriarchal sentiment: â€Å"he for God only, and she for God in him† (Milton, IV.299). In essence, this idea declares that Adam and Eve possess unequal roles – Adam is better than Eve, as men are better than women, in accordance to the deeply conventional reading of the relations between the sexes. Eve’s purpose for Adam makes her less†¦show more content†¦At first sight, he is spiritually attracted to Eve because she was created from his rib: â€Å"His flesh, his bone; to give thee being I lent / Out of my side to thee, nearest my heart, / Substant ial life, to have thee by my side† (IV.483-485). Consequently, Adam immediately loves her, since he feels a strong manifestation of himself in her. However, a problem arises when Adam’s love for Eve transforms into passion, two distinct emotions that are identified by the angel Rafael: â€Å"In loving thou dost well; in passion not, / Wherein true love consist not. Love refines / The thoughts, and heart enlarges hath his seat in reason† (VIII.588-590). Love and passion are different because the former â€Å"refines† reason while the latter corrupts it – passion can be dangerous to reason. However, in his discussion with Rafael, Adam’s initial depiction of Eve hints that he feels both love and passion for Eve. In describing her, Adam says: Her loveliness, so absolute she seems And in herself complete, so well to know Her own, that what she wills to do or say, Seems wisest, virtuousest, discreetest, best: All higher Knowledge in her presence falls Degraded; Wisdom in discourse with her Loses †¦ (VIII.447-452) He confesses that his passion for Eve overpowers his own reason. He feels that this passion exceeds his own self-control andShow MoreRelatedFrankenstein Study Guide14107 Words   |  57 Pagesyoung scientist brings on his own destruction by constructing an artificial man and bringing it to life. Through the characters of Dr. Frankenstein and his creature, this powerful novel explores the themes of ambition, science, moral responsibility, social isolation, and psychological balance. With its wild and desolate settings and its supernatural being, Frankenstein is an example of the gothic novel. With a scientific fantasy at the center of its plot, the novel is also regarded as a forerunner of

Hydraulics and Hydrology Lec Free Essays

string(26) " with a systems approach\." 48362 – HYDRAULICS and HYDROLOGY James E Ball – Hydrology Component SUBJECT DETAILS 1 CONTACTS ? Assoc Prof James Ball ? ? ? james. ball@uts. edu. We will write a custom essay sample on Hydraulics and Hydrology Lec or any similar topic only for you Order Now au ph – 9514 2623 Office Hours ? ? Monday 2:00 – 4:00pm Contact by email for appointment SUBJECT CONCEPT The objective of this component of the subject is: ? Introduce engineering hydrology; ? Introduce hydrological processes; ? Introduce flood estimation; and ? Introduce engineering hydrology applications in water resources management. 2 SUBJECT CONCEPT This introduction is aimed at: ? Providing an ability to apply commonly used methods in hydrology; and ? Provide an understanding of the theory behind these methods. REFERENCES Three references that may be useful are ? Applied Hydrology – Chow, Maidment Mays, McGraw-Hill Book Co. ? Hydrology An Australian Introduction – Ladson, Oxford University Press ? Australian Rainfall Runoff – A Guide to Flood Estimation – Engineers Australia No published Course Notes are available for this subject. 3 SUBJECT DOCUMENTS UTS-Online will be used for distribution of ? Copies of lecture slides; ? Reading material; and ? Tutorial problems. Students should note that additional reference books may be noted in the lecture slides. LECTURE STRUCTURE Each Hydrology lecture period will comprise: ? 2 hour lecture; and ? 1 hour tutorial. It is expected that students will have accessed the lecture slides, reading material and tutorials prior to the lecture period. 4 SUBJECT TIMETABLE Date Topic 27 February Hydrology and Water Resources 5 March Meteorology 12 March Hydrologic Data 19 March Surface Water 27 March Storm Runoff 2 April Hydrologic Design 9 April Design Rainfall 1 May Peak Flow Estimation 7 May Hydrograph Estimation – Part 1 13 May Hydrograph Estimation – Part 2 14 May Environmental Flows 21 May Water Sensitive Urban Design 4 June Course Review HYDROLOGIC CYCLE Lecture 1 5 CONTENT ? Introduction to Hydrology ? Development of Hydrology ? Hydrologic Cycle ? Australian Hydrology INTRODUCTION 6 DEFINITION OF HYDROLOGY Greek word: Hydor = water ology = study of Hydraulics comes from Greek word hydraulikos which in turn comes from hydor (Greek for water) and aulos (meaning pipe). DEFINITION OF HYDROLOGY UNESCO (1979)1 defines hydrology as â€Å"the physical science which treats the waters of the Earth, their Occurrence, Circulation and Distribution, their Chemical and Physical Properties, and their Reaction with the Environment†. UNESCO, (1979), Impact of urbanisation and industrialisation on water resources planning and management, Studies and Reports in Hydrology, UNESCO, UNESCO, Paris. 7 WATER Water is essential for maintenance of life. Early civilisations were concentrated on rivers ? ? establishment of settlements near rivers analogous to looking for signs of water on Mars Management of water is multi-d isciplinary; many professions are involved. WATER Variety of problems encountered include ? Flood mitigation ? Sanitary sewer systems ? Land drainage ? Water Supply ? Culvert and bridge design ? Environmental Flows ? Erosion ? Mine tailings ? Drought ? Adaptation to climate change ? Irrigation systems ? Hydro-electric and power generation ? Stormwater systems 8 RURAL FLOODING URBAN FLOODS 9 STORMWATER STRUCTURES STORMWATER DRAINS 10 WATER SUPPLY HYDRO-ELECTRIC POWER 11 IRRIGATION SCHEMES DROUGHT 12 DEVELOPMENT OF HYDROLOGY Ancient civilisations were integrated with their river valleys. Examples are ? ? ? ? ? Egyptian Civilisations and the Nile Valley Mesopotamian Civilisations and the TigrisEuphrates Indian Civilisations and the Indus Valley Ancient China and the Yellow River Andean Civilisations and Coastal Peru DEVELOPMENT OF HYDROLOGY Many of structures from early civilisations are still in operation. Large scale irrigation and drainage works were associated with these civilisations. Earliest recorded dam is about 2900BC (the Sadd Al-Kafara at Wadi Al-Garawi, 25km south of Cairo) Used for both flood protection and irrigation. Also site of earliest known dam failure. 13 DEVELOPMENT OF HYDROLOGY Oldest surviving dam in the world is the Grand Anicut Dam on the Kaveri River in Southern India. This structue dates back to 2nd Century AD. DEVELOPMENT OF HYDROLOGY Water supply to Ancient Rome has been estimated as being approx 500L/c/d. Current water supply requirements are ? ? ? Australian cities, design – approx. 430L/c/d Australian cities, actual – approx. 230L/c/d US cities, design – approx 600L/c/d Drainage structures (such as the Cloaca Maxima) from Ancient Rome are still being used today. 14 ANCIENT ROMANS Cloaca maxima Bath, UK AQUEDUCTS Pont du Gard, France c19 BC Hampi, India 1st century AD 15 DEVELOPMENT OF HYDROLOGY Flood protection has been practiced for thousands of years along the Yellow and Yangtze Rivers. It remains an issue of concern in these areas to the current day. DEVELOPMENT OF HYDROLOGY Water has been of interest for many years. Ancient Greek and Roman philosophers speculated on a hydrologic cycle – Homer, Plato, Aristotle, Lucretius, Seneca, Pliny. This cycle was developed from their observations of water in their environment. Use of observations remains a fundamental component of current hydrologic applications and research. 16 DEVELOPMENT OF HYDROLOGY Chinese recorded observations of rain ? ? ? An-yang oracle bones as early as 1200BC; Used rain gauges around 1000BC; and Established systematic records about 200BC. Indian records date back to 400BC. DEVELOPMENT OF HYDROLOGY Scientific development of hydrology occurred uring the Renaissance period. Examples are ? ? ? Leonardo da Vinci – velocity distributions in streams. Bernard Palissy – springs originated from rainfall. Pierre Perrault – runoff is a fraction of rainfall. 17 DEVELOPMENT OF HYDROLOGY Other contributions during this period were made by ? ? ? ? ? Galileo Newton Bernoulli Euler Lagrange DEVELOPMENT OF HYDROLOGY Signi ficant scientific development occurred in the 19th Century when ? ? ? ? ? Dalton proposed the principle of evaporation. Hagen-Poiseuille described capillary flow. Mulvaney developed the Rational method. Darcy described mathematically porous media low. Rippl developed methods for determining storage requirements. 18 DEVELOPMENT OF HYDROLOGY 20th Century saw rapid development of quantitative hydrology. Biggest influence during this period was the development of the digital computer and the development of catchment modelling systems. Limitation now is data availability rather than calculation capacity. HYDROLOGIC CYCLE 19 HYDROLOGICAL CYCLE One of the fundamental cycles of nature. Basis for the science of hydrology. Important points ? ? ? ? Cycle has no start and no end. Cycle is continuous. Flow of water in the cycle is not continuous. Water moves erratically through the cycle. HYDROLOGICAL CYCLE 20 HYDROLOGICAL CYCLE HYDROLOGICAL CYCLE 21 HYDROLOGICAL CYCLE HYDROLOGICAL CYCLE General components of the cycle are ? Atmospheric Water ? Surface Water ? Ground Water In analysis of water resource problems, these components are treated with a systems approach. You read "Hydraulics and Hydrology Lec" in category "Papers" 22 SYSTEMS CONCEPT A systems concept is applied when considering the hydrological cycle or some component thereof. This is consistent with the reductionist concept used in many engineering problems. SYSTEMS CONCEPT The reductionist philosophy is based on reducing the system to a number of smaller omponents. The response of the system then is determined from summation of the responses of the individual components. 23 SYSTEMS CONCEPT WATER BALANCE 24 WATER BALANCE Amount of water does not change. Where it may be found does change. Water maybe found in the seas and oceans, in the atmosphere, on the surface, below the surface, and in biological systems. WATER BALANCE ITEM Oceans Polar Ice Groundwater Lakes Soil Moisture Atmospheric Water Rivers Biological Water ?Water VOLUME (km3) % TOTAL WATER 1. 338 x 109 96. 5 24. 0 x 106 1. 7 23. 4 x 106 1. 69 187. 9 x 103 0. 0138 16. 5 x 103 0. 0012 12. 9 x 103 . 001 2. 1 x 103 0. 0002 1. 1 x 103 0. 0001 1. 386 x 109 100. 0 UNESCO, 1978 – ref 11, ladson ch1 25 WATER BALANCE Not all water is freshwater. Only approx 2. 5% of the water is fresh water – water in the oceans and some lake water and ground water is saline. Considering only fresh water, the values in the previous table are modified to WATER BALANCE UNESCO, 1978 ITEM VOLUME (km3) % TOTAL WATER Polar Ice 24. 0 x 106 68. 6 Groundwater 23. 4 x 106 30. 1 103 0. 26 Soil Moisture 16. 5 x 103 0. 05 Atmospheric Water 103 0. 04 Rivers 2. 1 x 103 0. 006 Biological Water 1. 1 x 103 0. 003 Fresh Water 35. 0 x 106 00. 0 Lakes 187. 9 x 12. 9 x 26 WATER BALANCE Basis of any volume based pro blem is a water balance. This is a usage of the concept of continuity. In general, application of continuity gives in volume terms Inflow – Outflow = Change in Storage (? S) And in flux terms Qi – Qo = ? S / ? t WATER BALANCE Components of inflow for a water body such as a lake or reservoir are ? Precipitation (P) ? Inflow from rivers or groundwater (I) 27 WATER BALANCE Components of outflow for a water body such as a lake or reservoir are ? Evapo-transpiration (ET); ? Outflows – Extractions, Downstream flows, (O); and ? Seepage (G) WATER BALANCE Hence the water balance for a water body is P + I – O – ET – G = ? S 28 WATER FLOWS While the volume of water in a source is important, the flux of water through a component is important also. An indication of the flux can be obtained from the diagram of the hydrological cycle. WATER FLOWS The Global Annual Water Balance is shown on in units relative to the annual volume of precipitation on land masses. Note that this is a flow rate (km3/yr). 29 WATER FLOWS ? Precipitation ? ? ? ? Land – 119,000 km3/yr (800mm/yr) Ocean – 458,000 km3/yr (1270mm/yr) Total – 577,000 km3/yr Evaporation ? ? ? Land – 72,000 km3/yr (484mm/yr) Ocean – 505,000 km3/yr (1400mm/yr) Total – 577,000 km3/yr WATER FLOWS ? Runoff to Oceans ? ? ? Rivers – 44,700 km3/yr Groundwater – 2,200 km3/yr Total Runoff – 47,000 km3/yr (316mm/yr) 30 WATER FLOWS Considering the volume and flux gives the mean residence times in a particular source. The mean residence time for atmospheric water is obtained by dividing the volume (S) of water in the atmosphere by the flux (Q), ie TR ? S 12,900 ? ? 0. 022 yr ? 8. 2days Q 577,000 WATER FLOWS ITEM Oceans Polar Ice Glaciers Groundwater Lakes Soil Moisture Rivers Atmosphere Biological Water TR 2600 years 1100 years 700 years 13 years 155 days 13 days 8. 2 days 3. 4 days 31 AUSTRALIAN CLIMATE AUSTRALIAN CLIMATE â€Å"†¦of droughts and flooding rains† 32 RIVER RUNOFF Australia has low runoff per unit area (average depth of surface runoff). Also, Australian runoff has greater variability due to lack of snow melt period. RAINFALL COMPARISON Variability of Annual rainfall 20 18 Coefficient (%) 16 14 12 10 8 6 4 2 0 A ustralia S. A frica Germany France NZ India UK Canada China USA Russia Country 33 AUSTRALIAN CLIMATE CLIMATE CLASSIFICATIONS Marked wet summer and dry winter of northern Australia. Wet summer and low winter rainfall of southeast QLD and northeast NSW. Uniform rainfall in southeast Australia. Wet winter and dry summer of southwest WA and parts of the southeast. Arid area comprising about half of the continent More on BoM website 34 AUSTRALIAN RAINFALL Pluviometer Network Daily Read Network PRECIPITATION 35 AUSTRALIAN RAINFALL City Average Annual Rainfall (mm) Average Number of Rain Days Darwin 1714 111 Sydney 1217 138 Brisbane 1149 122 Perth 786 114 Melbourne 653 147 Canberra 623 105 Hobart 569 135 Adelaide 530 121 Alice Springs 279 31 After Ladson, 2008 AUSTRALIAN CONDITIONS Australian rainfall is influenced by general circulation patterns. Most of Australia is around 30o latitude which tend to be areas of descending air. Note – that the solar equator moves during the year. 36 AUST. CLIMATE VARIABILITY Known major causes Approximate time scale Effect Synoptic weather patterns Day / week â€Å"Weather† Southern Annular Mode Weeks +ve phase = winter rainfall deficiencies in southern Australia; summer increases in MDB El Nino / La Nina (Southern Oscillation Index) Inter-annual El nino = lower rainfalls La nina = higher rainfalls Indian Ocean Dipole Inter-annual ve phase = increased rainfall +ve phase = decreased rainfall Inter-decadal Pacific Oscillation Inter-decadal Flip flops between drier and wetter periods e. g. 1st half of 20th century wetter than 2nd half The Australian climate – influences http://www. bom. gov. au/watl/about-weather-and-climate/australian-climate-influences. html 37 The Australian climate – influences The Australian climate – topography 38 Seasonal rainfall variation across the country Seasonal rainfall variation across the country Mean rainfall – Katherine mm Mean rainfall – Dubbo mm 240 220 200 180 160 140 120 100 80 60 40 0 0 240 220 200 180 160 140 120 100 80 60 40 20 0 J F M A M J J A S O N J D F Mean rainfall – Alice Springs mm M A M J A S O N D Mean rainfall – Sydney mm 240 220 200 180 160 140 120 100 80 60 40 20 0 J 240 220 200 180 160 140 120 100 80 60 40 20 0 J F M A M J J A S O N D J F M A M J J A S O S O N N D Mean rainfall – Perth mm Mean rainfall – Strahan mm 240 220 200 180 160 140 120 100 80 60 40 20 0 J F M A M J J A S O N D 240 220 200 180 160 140 120 100 80 60 40 20 0 Perth wind rose February J F M A M J J A D Rainfall variability – a comparison Annual rainfall – Birdsville mm 600 400 200 2000 1980 1960 Annual rainfall – Bourke mm Annual rainfall – Perth 1940 1920 1900 0 mm 1000 1400 1200 800 1000 600 800 600 400 400 200 200 1980 1960 1940 1920 1900 1980 1960 1940 1920 1900 1880 1880 0 0 39 NSW annual rainfall time-series New South Wales Annual Rainfall 1000 900 Dry Period: 1900 – 1946 Average Rainfall: 477. 7mm *Dry conditions commenced 1890 Standard Deviation: 90. 4 Wet Period: 1947 – 2000 Average Rainfall: 573. 9mm 20. 1% increase Standard Deviation: 127. 0 800 New Dry 2001/06 439. 5mm 23. 4% decline Rainfall (mm) 700 600 500 400 300 200 100 0 1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000 Year 40 How to cite Hydraulics and Hydrology Lec, Papers

Impact Of Leadership In Business Performance-Myassignmenthelp.Com

Question: What Is The Impact Of Leadership In Business Performance? Answer: Introducation After considering the increasing rate of information System in the business organization it has been found that, the due to lack of Human Resource leadership most of the businesses are facing throughout major challenges (Cimirotic et al., 2017). Lack of leadership could lead a business organization towards failure, thus proper issues mitigation strategies are needed to be adopted to resolve the performance oriented issues. An organization will be referred to as an effective one if a balance could be determined there in between the demands of different stakeholders. Proper leadership and communication must be served between the owners, employees, consumers and community. This research will conduct onwards the role of leadership in organizational performance. The growth of the organizations and the employees are influenced by appropriate leadership and organizational performance (Bolman Deal, 2017). This particular research explores the role of leadership management in organizational performance. After identifying the problem statement a research aim and objectives will be identified. A brief methodology is also identified by following which the entire research work could be conducted properly. Research aim and objectives Depending upon the current organizational trends the management trend is also required to be modified. Every individual including the work header and other employees could efficiently perform with the help of transformational leadership. The main aim of the research report is to provide certain strategies through which the leadership could be conducted to improve the organizational performance. Objective To determine the role of Human Resource leadership management in organizational performance To define different techniques through which the leadership could be improved To investigate on the current trends of leadership Brief methodology After considering the research topic on role of leadership management for improving the organizational performance it is necessary to consider accurate research philosophy, research approaches and data collection methods as well. For mitigating the identified issues of leadership management, transformational leadership is required to be considered by the management authority. Transparent and ethical transformational leadership will be helpful to combat the leadership issues of organizations (Donate de Pablo, 2015). Positive correlation is required to be possessed by the management authority to increase the performance of every individual including the employees and organizations as well. Positivism research approach is one of the most appreciable research approaches among positivism, realism and interpretivism. In order to explore all the hidden data and hidden facts interpretivism and realism philosophy should be entirely avoided. For implementing proper leadership management in the organizations deductive research approach should be adopted. In other hand, for organizing the components of leadership in an accurate manner it is necessary to collect mixed data from the resources considering both the primary and secondary data (Wang et al., 2014). Instead of quantitative the researcher should concentrate on qualitative data. Rather than questionnaires survey books and journals are needed to be considered. From the qualitative data the quality of leadership that needs to be improved could be implemented accurately. Summary From the overall discussion it can be concluded that, an organization could gain measurable success from the competitive market only after establishing a strong relationship between organizational performance and transformational leadership. A transformational leader could be identified as positive optimistic and trustful leaders who are intelligent enough to promote all the project innovations (Bolman Deal, 2017). Even an organizational culture could also be changed through inspiring the mission sense and purpose of organizational performances as well. After considering the topic, it has been in order to conduct the research report positivism research philosophy, mixed data collection and deductive research approaches are required to be identified. Not only has this but also for this particular research works instead of quantitative data more concentration should be provided on quantitative data. References Birasnav, M. (2014). Knowledge management and organizational performance in the service industry: The role of transformational leadership beyond the effects of transactional leadership.Journal of Business Research,67(8), 1622-1629. Bolman, L. G., Deal, T. E. (2017).Reframing organizations: Artistry, choice, and leadership. John Wiley Sons. Cimirotic, R., Cimirotic, R., Duller, V., Duller, V., Feldbauer-Durstmller, B., Feldbauer-Durstmller, B., ... Hiebl, M. R. (2017). Enabling factors that contribute to women reaching leadership positions in business organizations: The case of management accountants.Management Research Review,40(2), 165-194. Donate, M. J., de Pablo, J. D. S. (2015). The role of knowledge-oriented leadership in knowledge management practices and innovation.Journal of Business Research,68(2), 360-370. Wang, H., Sui, Y., Luthans, F., Wang, D., Wu, Y. (2014). Impact of authentic leadership on performance: Role of followers' positive psychological capital and relational processes.Journal of Organizational Behavior,35(1), 5-21.