Essay on Employment Law in Australia Example | Topics and Well Written Essays - 2000 words

On Employment Law in Australia - Essay Example It may not have been the intention of the employee to depict the scenario that has been adopted by the employer in the situation. In so doing, the employee lacks the forum to explain his or her actions leading to an unfair dismissal that could have been averted had proper investigations be done. Several reasons that employers issue are common grounds for unfair dismissal and infringement of statutory employment rights that each employee is entitled to according to Ford, Notestine, and Hill (2000). A common cause of unfair dismissal is when an employee makes a public interest disclosure (Stewart, 2011) as seen in the case of Andrea who disclosed information that was of public interest but was not necessarily related to the company's operational information. In order to seek fairness in the termination of her employment, Andrea sought to bring a lawsuit against the company in light of common law actions which are lawsuits governed by the general principles of law derived from court dec isions. Andrea is allowed to approach a court of law and initiate a lawsuit against her employer in which she will seek to show that her actions were in no way intended to cause harm to the organization but merely to inform her friends about the impending danger that may be encountered when one leaves their valuables near unlocked doors. It is allowed that a case be heard in the civil court before a tribunal that will determine whether the employee had been dismissed unfairly and even if the dismissal was justified, it will determine whether the nature in which it was done was appropriate and fair to the employee. Andrea is allowed in court to demonstrate the fact that the email she sent to her friends was only meant to warn them about the dangers she herself had encountered in her home so that they can take better care of their belongings in their houses. She can also demonstrate that the email was only sent to the members of staff within the company and not to outsiders as a means of trying to warn and protect her fellow staff members out of concern for their safety. It would only be natural for a person to try and warn her fellow staff members taking the lesson out of her own personal experiences. This is a common concept that is employed by any person who has the best interest of others at heart and would wish to be also warned in the same manner. Ideally, she may also have believed that email was one of means she could have used to reach many people within a short time. This may have been the only motivating factor that made her resort to the use of the medium and not any other construed ideologies that the company may have indicated. This is the information that Andrea did not get to share with her employers before she was dismissed; an explanation that could have cleared up issues. The depiction of the colored arm in her email may work against her because it is perceived as a gesture of racism. This may work against her considering that the company has got a specific policy on racism. It has clearly stipulated that one may not display or transmit sexually explicit images, messages or cartoons or email communications that may contain ethnic slurs or anything that may be construed as harassment or discredit others based on their national origin, race, sex, age, disability, sexual

Synthesis Polylactic Acid By Lipase Catalyzed Polymerization Biology Essay

Synthesis Polylactic Acid By Lipase Catalyzed Polymerization Biology Essay Polylactic acid (PLA), the biodegradable polymer, has received increasing attention as alternative materials in packaging and biomedical applications. The general method for synthesis of PLA using chemical-catalyzed polymerization produces the catalysts residues which are toxicity. Therefore, the enzymatic polymerization is a green alternative method to decrease this problem. Several researches attempt to improve the optimal condition for synthesis of PLA by using lipase as enzymatic-catalyzed. For an example, Lassalle et al. (2008) reported the synthesis of PLA by using lipase as biocatalyst and focused on the procedure. The results found that immobilized CAL-B was the most effective biocatalyst with 60% LA conversion and 55% recovered solid polymer in the reaction working at 60 Â °C for 96 h. Furthermore, Hans et al. (2009) researched to confirm the mild reactions conditions for the ring-opening polymerization of lactides by using Novozyme 435 (immobilized CAL-B) 12% wt. concentration in toluene to synthesize the polymer at 70 Â °C, D-lactide was catalyzed and 33% of monomer was converted and could be isolated a polymer with 25% yield for a number-average molecular weight of 3,300 g mol-1. Finally, Garcia-Arrazola et al. (2009) reported the synthesis of poly-L-lactide by used immobilized CAL-B (Novozyme 435) as biocatalyst for the ring-opening polymerization of L-lactide at 65 Â °C could be achieved using supercritical carbon dioxide (scCO2). The L-lactide monomer could be converted as the PLA with a molecular weight 12,900 g mol-1 under the condition at a biphasic scCO2/organic liquid system media and the optimum of temperature for the lipase activity. All of these present studies are the novel route to produce the polylactic acid and relate improvement of the new biomaterials. TABLE OF CONTENTS Page TABLE OF CONTENT i LIST OF TABLES ii LIST OF FIGURES iii INTRODUCTION 1 Lipase 1 Polylactic acid: PLA 2 Synthesis of polylactic acid: PLA 4 3.1 The conventional process for synthesis of PLA 4 3.2 Process for synthesis of PLA by lipase-catalyzed polymerization 5 Influence of several factors for the polymerization 6 Influence of the kind of lipase 6 Influence of the enzyme concentration 8 Influence of the monomer concentration 10 Influence of the temperature 11 The improvement of process for lipase-catalyzed synthesis of PLA 12 CONCLUSION 14 LITERATURE CITED 15 LIST OF TABLES Table Page Comparison of raw material type and possibility of recycling and biodegradation between PLA and PET polymer 3 Conversion (%) of LA, isolated enzyme after reaction, recovered PLA, and molecular weight (Mn) (Da) as a function of the kind of the different lipase 7 Results obtained for the ring opening polymerization of L-LA in scCO2 with 20 % (w/v) of L-LA and initial water content (aw) < 0.16 13 LIST OF FIGURES Figure Page 1 Chemical structure of Polylactic acid: PLA 2 2 Life cycle of PLA 3 3 Polymerization routes to PLA 4 4 Polymerization reactions to synthesize PLA 6 5 Lactide conversion as a function of reaction time for the ring opening polymerization of DD-lactide at 70 oC with a monomer to toluene ratio of 1:2 (g:mL) and use different concentration of Novozyme 435 8 6 Molecular weight as a function of conversion plots for the ring opening polymerization of DD-lactide at 70 oC with a monomer to toluene ratio of 1:2 (g:mL) and use different concentration of Novozyme 435 9 7 Lactide conversion as a function of reaction time for the ring opening polymerization of DD-lactide at different monomer to toluene ratio (monomer concentration) at 70 oC with 15 wt.-% of Novozyme 435 10 8 Lactide conversion as a function of reaction time for the ring opening polymerization of DD-lactide at different temperatures with 15 wt.-% of Novozyme 435 and a monomer to toluene ration 1:3 11 9 Number-average molecular weight as a function of temperature for the ring opening polymerization of DD-lactide at different monomer conversion with 15 wt.-% of Novozyme 435 and a monomer to toluene ratio 1:3 12 SYNTHESIS OF POLYLACTIC ACID BY LIPASE-CATALYZED POLYMERIZATION INTRODUCTION Lipase Lipases or triacylglycerol acylhydrolases EC 3.1.1.3 are hydrolase which catalyze the hydrolysis of triglycerides to glycerol and free fatty acids under aqueous conditions. In addition, lipases catalyze the tranesterification of other esters under micro-aqueous conditions. The ability of lipases has received increasing attention for used as catalyze in a wide array of biotechnology industry, such as food technology, detergent, chemical industry, cosmetic, organic synthesis, biomedical sciences and pharmaceutical applications (Gupta et al., 2004; Treichel et al., 2010). Lipases are produced by various plants, animals and microorganisms. Many microorganisms which are known as producers of extracellular lipases, including bacteria, yeast, and fungi. Especially, bacterial lipases and fungal lipases are most widely used as a class of commercial enzymes in many applications. The important commercial microbial lipases are Achromobacter sp., Alcaligenes sp., Arthrobactersp., Bacillus sp., Burkholderia sp., Chromobacterium sp., and Pseudomonas sp. from bacteria which are used successfully in the market with several products names, such as Lumafast, Lipomax, Combizyme and Greasex (Gupta et al., 2004). Moreover, fungi produces the important commercial lipases are Rhizopus sp., Aspergillus sp., Penicillium sp., Geotrichum sp., Mucor sp., and Rhizomucor sp. (Treichel et al., 2010) which are used in the market with many products names, such as Lecitase, Lipozyme, and Novozym 435 (CAL-B). Of these, the lipases from microbial have a stability, selectivity, and broad substrate specificity for cultivation such as an applications by used substances form oil mill wastewater, slaughterhouse wastewater, agroindustrial waste and corn steep liquor (Gupta et al., 2004; Treichel et al., 2010). Therefore, the recent microbial lipases have gained special industrial attention for used as biocatalyst in rapidly growing biotechnology. Polylactic acid Polylactic acid or the short name is PLA is a thermoplastic aliphatic polyester which a synthetic polymer based on lactic acid (LA) and have a helical structure was shown in Figure 1. PLA derived from the fermentation of renewable resources such as corn starch, tapioca products and sugarcanes. Figure 1 Chemical structure of Polylactic acid: PLA. PLA has received increasing attention as alternative materials in packaging and biomedical applications due to PLA is a biodegradable polymer, it easily degrades by simple hydrolysis of microorganisms under the appropriate conditions (Garlotta, 2001; Avinc and Khoddami, 2009). PLA has a high-strength, high-modulus, brightness, barrier properties and good moisture management as a result of its interesting for used in packaging and composite materials for clothing applications (Garlotta, 2001). Furthermore, PLA has a biocompatible and bioabsorbable properties which can be used for wide range applications in biomedical and pharmaceutical technology, such as surgical sutures, tissue engineering scaffolds, absorbable bone plates, artificial skin, and controlled drug-release systems (Lassalle and Ferreira, 2008; Avinc and Khoddami, 2009; Hans et al., 2009). Because of its compost based on a natural substance which make a biodegradability, PLA is to be a more environmentally-friendly polymer than poly ethylene terepthalate (PET) which is derived from a synthetic petrochemical-based materials due to PLA is lower greenhouse gas emission and significant energy savings, PLA avoids the problems related to plastic waste accumulation. The result of comparison between PLA and PET polymer was shown in Table 1. Table 1 Comparison of raw material type and possibility of recycling and biodegradation between PLA and PET polymer. Indexes PLA PET Initial raw material base Renewable plant stock Petroleum products Non-renewable resources Recycling of polymer wastes Total recycling possible Total recycling possible Biodegradation of polymer wastes Total Does not degrade Source: Avinc and Khoddami (2009) PLA products are easily composted or recycled under appropriate conditions at the end of the product life. The Figure 2 show the life cycle of PLA material degrades first by microbial hydrolysis, then the carbon dioxide and water which obtained from reaction became the basic necessities for a new growth and leading to produced lactic acid (LA) for re-used as a monomer in the production of a new PLA (Avinc and Khoddami, 2009). Figure 2 Life cycle of PLA. Synthesis of polylactic acid: PLA The synthesis of PLA starts with the extraction of sugars (e.g., glucose and dextrose) from natural substances which used as a substrate in fermentation of lactic acid by microorganisms. Lactic acid (LA) is the starting material for the PLA production process, through polymerization. There are two major routes to synthesize PLA from LA monomer which are showed in Figure 3 (Avinc and Khoddami, 2009). Figure 3 Polymerization routes to PLA. From the Figure 3, polymerization routes to PLA are distributed as two processes, the first route is a polycondensation polymerization and the second route is a ring opening polymerization. The conventional process for synthesis of PLA The production process to synthesize PLA by polycondensation of LA is the conventional process for making PLA. This process need to carry out under high vacuum and high temperature, solvent is used to extract the water through the condensation reaction (Avinc and Khoddami, 2009). However, PLA polymer products obtained tends to have low molecular weight. Therefore, the second route is improved by ring opening polymerization of LA which is condensed of water and then converted into cyclic dimer of LA or lactide for used as a monomer in ring opening polymerization. PLA polymer products obtained higher molecular weight than the first route and used milder conditions. Polymerization of PLA need to use a catalyst for supporting the conversion of LA to PLA. The catalysts are divided into two types, the first is the chemo-process which is the polymerization by used a metal as a catalyst and the second is the bio-process which is the polymerization by used a LA-polymerizing enzyme as a catalyst. The chemo-process made the residues of heavy metals based catalysts, such as oxides of Zinc (Zn) and Stannum or Tin (Sn) which are toxicity. Furthermore, the process need high purity monomers, high temperature and high vacuum for serving conditions reactions. On the other hand, the bio-process used an enzyme based catalysts such as lipases which are non-toxic. Also, PLA polymer products can be used for biomedical and pharmaceutical applications. Moreover, polymerization reaction can be run under mild and environmentally-friendly conditions (Taguchi et al., 2008; Lassalle and Ferreira, 2008; Hans et al., 2009). Process for synthesis of PLA by lipase-catalyzed polymerization From the advantages of the bio-process or the enzymatic-catalyst polymerization, there are several researches attempts to synthesize PLA by used enzyme as catalyst such as lipase-catalyzed in the ring opening polymerization. The reaction of polymerization can be set up follow with the Figure 4. In the reactor compounded with LA, lipase, solvent and purge gas which is used for protection to occur of the regeneration of PLA. Furthermore, the total reactions need to control the optimal temperature and reaction time. Figure 4 Polymerization reactions to synthesize PLA. The measurements which used to represent the properties of PLA polymer products are considered in several parameters. The important of evaluations are the conversion of LA, the molecular weight of PLA polymer products, the recovery of PLA and the recovery of lipases at the end of reactions. Influence of several factors for the polymerization Production of a good PLA, must be use a good set up reaction of polymerization. Otherwise, the influence of the several factors such as a kind of lipases, enzyme concentration, monomer concentration and temperature needs to be considered together. Influence of the kind of lipase Lassalle et al. (2008) researched the influence of the kind of lipase for the synthesis of polylactic acid (PLA) by using the three kind of lipases as biocatalysts. Porcine pancreatic lipase (PPL) from mammalian, Candida antarctica lipase B (Immobilized CAL-B) from fungal, and Pseudomonas cepacia (PCL) from bacterial origin were used in the experiment. The reaction was carried out by operating of LA, lipase, and solvent at 60 oC for 96 h. The performance of the three lipases was evaluated in a term of the conversion of LA to PLA and expressed as percentage (%) conversion. Table 2 Conversion (%) of LA, isolated enzyme after reaction, recovered PLA, and molecular weight (Mn) (Da) as a function of the kind of the different lipase. Enzyme % Conversion % recovered PLA % recovered lipase Mn (Da) Imm.CAL-B 58 55 85 446 PCL 88 12 34 400 PPL 96 2 90 768 Source: Lassalle and Ferreira (2008) The result was presented in the Table 2, using the immobilized CAL-B as catalyst obtained 58% conversion of LA, 55% recovered PLA, 85% recovered lipase, and 446 Da of Molecular weight. For using PCL as catalyst obtained 88% conversion of LA, 12% recovered PLA, 34% recovered lipase, and 400 Da of Molecular weight. For using PPL as catalyst obtained 96% conversion of LA, 2% recovered PLA, 90% recovered lipase, and 768 Da of Molecular weight. From the result found that higher conversion levels were measured in the case of soluble enzymes, but only traces of solid polyesters were recovered in this cases. In contrast, amounts of solid PLA were recovered using immobilized CAL-B, and the conversion was lower than soluble lipases. For the conclusion of the experiment, the immobilized CAL-B was the most effective biocatalyst with 60% conversion of LA and 55% recovered solid polymer in the reaction working at 60 oC for 96 h. Influence of the enzyme concentration There are several researches used the immobilized CAL-B lipase for esterification reaction due to its high catalytic activity but it does not propagate in polymerization reaction. So, Hans et al. (2009) researched to confirm the synthesis of PLA by immobilized CAL-B (Novozyme 435) catalyst in ring opening polymerization of lactide. The reaction was improved by adding nitrogen gas into the reactor for protected regeneration of PLA to LA and used toluene as a solvent for enzymatic polymerization. The objective of this study is find an optimal reaction condition such as enzyme concentration, monomer concentration and optimal temperature. Figure 5 Lactide conversion as a function of reaction time for the ring opening polymerization of DD-lactide at 70 oC with a monomer to toluene ratio of 1:2 (g:mL) and use different concentration of Novozyme 435. The first factor is influence of the enzyme concentration. The result was presented in Figure 5, the overall monomer conversion increases when increasing amounts of enzyme. The reaction catalyzed with 25 wt.-% of enzyme up to 100% monomer conversion after 2 days, while the reaction catalyzed with 10 wt.-% of enzyme up to only 25% monomer conversion. Figure 6 Molecular weight as a function of conversion plots for the ring opening polymerization of DD-lactide at 70 oC with a monomer to toluene ratio of 1:2 (g:mL) and use different concentration of Novozyme 435. In contrast, the relation of molecular weight and conversion are represented in Figure 6. The result found that 25 wt.-% of enzyme obtained the molecular weight of PLA lower than 15 wt.-% of enzyme and 10 wt.-% of enzyme at the same conversion due to higher enzyme concentrations have more water which is introduced into the reaction and leads to a decrease of the molecular weight. Amounts of water within the reaction have an influence for the molecular weight PLA polymer products (Hans et al., 2009). The normal of reaction for synthesis PLA by lipase-catalyst distribute into 3 step, the first step is the monomer activation which is the combination of lipases and lactic acid (LA), then the lipase-LA combine with water for extension of pre-polymer and release the component of lipase-OH in the initiation step, the last step is the chain propagation which increase the number of monomer within polymer chain. In any case, if there is a lot of water in the reaction, it will occur the conformation of the other component as free water and a linkage between lipase and water by loosely bound and tightly bound. The free water and lipase-water loosely bound can break the polymer chain in the initiation and affect to decrease a molecular weight of PLA polymer products. Influence of the monomer concentration Hans et al. (2009) studied influence of the monomer concentration by expected that increasing monomer concentration, the polymerization rate and the overall monomer conversion will increase. Figure 7 Lactide conversion as a function of reaction time for the ring opening polymerization of DD-lactide at different monomer to toluene ratio (monomer concentration) at 70 oC with 15 wt.-% of Novozyme 435. From the Figure 7 observed at the monomer to toluene ratio 1:2 and 1:3, the high conversion increase and then decrease when the monomer concentration decrease. Exclusion a monomer to toluene ratio 1:1, the conversion is also lower which might result from a poor solubility of the substrate and the precipitation of PLA. For the conclusion of the experiment, the immobilized CAL-B was the most effective biocatalyst with 33% of monomer was converted and could be isolated a polymer with 25% yield for a number-average molecular weight of 3,300 g mol-1. Influence of the temperature Furthermore, Hans et al. (2009) expected that the temperature affect to PLA polymer products in ring opening polymerization as show in the Figure 8. Figure 8 Lactide conversion as a function of reaction time for the ring opening polymerization of DD-lactide at different temperatures with 15 wt.-% of Novozyme 435 and a monomer to toluene ration 1:3. From the Figure 8 observed that increasing temperature, the monomer conversion decrease. At 80 oC and 90 oC, a monomer conversion does not exceed 25 % in 2 days while at 60 oC and 70 oC, a monomer conversion reaches about 60 % and at 50 oC, a monomer conversion reach to 80 %. In the case of ring opening polymerization of lactide by lipase-catalyst at higher temperature might induce an enhanced deactivation of the enzyme which led to low monomer conversion. Figure 9 Number-average molecular weight as a function of temperature for the ring opening polymerization of DD-lactide at different monomer conversion with 15 wt.-% of Novozyme 435 and a monomer to toluene ratio 1:3. The relative of molecular weights and temperatures at different conversions are presented in the figure 9, at 60 % and 50 % conversion obtained a highest molecular weights at 60 oC and drop off at higher temperatures. Explanation is an increase temperature release of free and loosely bound water which make denaturation of the enzyme. The other reason is a decrease in temperatures also induces a lower solubility of the polylactide and affect difficult to maintain a homogeneous solution. The improvement of process for lipase-catalyzed synthesis of PLA From the study about the influence of several factors for ring opening polymerization by lipase-catalyst observed that the enzymatic synthesis of PLA by use volatile organic compounds solvent do not encouraging due to a poor solubility of the substrates in polymerization reactions. In addition, the high temperature to reach the melting point of LA at 92 oC-95 oC might cause partial enzyme deactivation (Garcia-Arrazola et al., 2009). Garcia-Arrazola et al. (2009) improved the polymerization reaction to obtain PLA by used supercritical carbon dioxide (scCO2) as a solvent replacement of the volatile organic compound (VOCs). The advantage of scCO2 is non-expensive, non-flammable, non-toxic, low melting point, low viscosity, high diffusion coefficient, and friendly in synthetic processes. Table 3 Results obtained for the ring opening polymerization of L-LA in scCO2 with 20 % (w/v) of L-LA and initial water content (aw) < 0.16. Entry Biocatalyst (wt%) Time (days) Polymer yield (%) 1 10 1 5.70 2 10 2 9.77 3 10 3 11.03 4 10 4 1.64 5 15 1 3.2 6 15 3 5.16 7 15 5 5.35 8 15 7

The Operation of Humans vs. Computers Essay -- Computer Science

The comparison of how humans and computers operate is an integral part of research in Cognitive Psychology. This essay discusses how this comparison allows us to turn ways in which humans and computers are similar into the development of useful computational models. These enhance our understanding of human perception in more detailed and quantitative ways which traditional research would not allow. It contrasts this by describing ways in which humans and computers are different, highlighting how such models may have limited application, and must be kept in perspective. The field of visual perception is one which has made good use of computational models to advance its knowledge, and so is a logical exemplar. One of the first instances of using a computational model to research visual perception was in response to the classic problem â€Å"how does the visual system ‘know’ that the varied appearance of a coloured surface is a property of the surface rather than its illumination?† (Gordon, 2004, p. 187). Both Land and McCann (1971) and Horn (1974) suggested that the key distinction is that the effect of a change in illumination is gradual, whereas changes that are because of an object’s edges are abrupt. To investigate, they recorded output differences from two adjacent detectors which sample lightness values. They found that the difference in output on a uniform surface with a change in illumination was small and insignificant, whereas when the detectors were on either side of a boundary between two surfaces of different lightness, there was a large difference in output. This suggests that our visual system uses a similar method to detect important changes in su rfaces properties and distinguish them from transitory changes in illumin... ...em such as vision, it is important not to oversimplify the idea to the point where a model is no longer representative of how the brain is working. Works Cited Dreyfus, H. L. (1972). What computers can’t do: A critique of artificial reason. New York: Harper & Row. Gordon, I. E. (2004). Theories of visual perception (3rd ed.). Hove: Psychology Press. Horn, B. K. (1974). Determining lightness from an image. Computer Graphics and Image Processing. 3, 277-299. Land, E. H. & McCann, J. J. (1971). Lightness and retinex theory. Journal of the Optical Society of America, 61, 1-11. Marr, D. (1982). Vision: A computational investigation into the human representation and processing of visual information. San Francisco, CA: W. H. Freeman. Marr, D. & Hildreth, E. (1980) Theory of edge detection. Proceedings of the Royal Society of London, Series B, 207, 187-217.

How Mary Rowlandsons Puritan Beliif Influenced Her Narrative of Her Captivity Essay

Some people are just better suited for things and situations then others. If you want a really hard math equation done maybe you should look in the depths of the library. If you need help moving into a new house and are moving heavy stuff go to the nearest weight room. Everyone, for the most part, is usually good for something. In this narrative, religion is everywhere.With verse after verse being quoted from the Bible. Some people have many Gods while most have one reining all-powerful being. In the case of Mary Rowlandson, I believe her being a puritan and having the strong puritan beliefs made her more suitable for dealing with the trails she was about to face then say a everyday church goer. Being the wife of a preacher it shows in the text Mary was solidly grounded in her faith making and well knowledgeable See more: how to start a narrative essay introduction The Puritan Belief is one that was quite popular in the colonies at that time. Major Puritan beliefs are taken seriously. A Puritan had to be a hard worker, be honest about everything and to be able to be self sufficient even though they believed that life on this earth was of little importance, that they shouldn’t worry too much because life is temporary. That all people’s faith is already predetermined from the second they were born. From Mary’s point of view she was very obedient to her husband. The Father was the backbone of Puritan households; he had control over everything and led the family financially and spiritually. In the start of Mary’s captivity she is living in Lancaster with her family when the natives attack them. Almost everyone on the village is brutally killed or wounded or taken into captivity and bargained for goods from the colonist for their lives. Mary’s family members were either killed or wounded. She witnessed the brutality of the Indians as she describes in one man in her village wounded in the ground begging for his life and the natives ripped him naked and removed all his bowels (Salisbury, p.68). Now separated from all but her very wounded daughter the natives begin to take them northwest. Eventually her daughter, Sarah, passes away from her injuries. This trail in Mary’s life for many people would spell doom. I don’t think if Mary were a devout Puritan she would have not survived the hardship of losing her daughter plus the abuse of being a captive to the natives. Even with her strong faith Mary writes about her waning faith, the bitterness in her heart and intense sadness she is feeling During this time Mary describes the natives of being like demons. Workers for the evil doings of Satan (Salisbury, p.71). That the natives are more then just enemies of war but enemies of the Christian faith and the spread of the goodness of God. Saying many times over she yearns for the company of fellow Christians. While writing this narrative Mary constantly revaluates her faith. Even saying at one point after the death of her daughter then she has not been showing the lord enough attention on the Sabbath. Saying at one time â€Å"The next day was the Sabbath: then I remembered how many Sabbaths I had lost and misspent, and how evilly I had walked in Gods sight†(Salisbury, p.74). Mary realizes that she must keep her faith if she is going to survive this ordeal. She always quotes scripture to understand or squander any obstacle she faces. Even in the smallest things she quotes scripture, while walking she simply slips a quotes a Psalm, â€Å"When my foot slipped, thy mercy, O Lord, help me up†(Salisbury, p.96). Reinforcing her puritan beliefs that God had a plan for her. That everything that was happening to her was in an already predetermined plan. God though seems from my point of view was watching over Mary. When her wounds are worsening she happens to run into a British man that had similar injuries and showed her how to heal them. During one of the Indians raids on the Medfield colony, one of the natives recovered a Bible that they allowed Mary to read(Salisbury, p.76). When she needed food somehow she found a way to get food or some was provided for her. King Philip is a tribal leader that even though the war bears his name is not so violent him-self and makes Mary’s survival chances brighter. Mary gets word from a man that her husband is alive and she gets to see her children which gives her hope that she will live with them again. All these things some small some larger made God seem present with her. Mary knows the Puritan belief requires them to be self-sufficient. She foraged for nuts and grain and started sewing to trade for either meals or goods like tobacco, which she could sell. Mary is always honest with the natives. Never ling to them about her plans or what she thought. Mary Rowlandson’s narrative on this story did show me how during rough times during the early colonies these religious puritans held strong. Though some beliefs of the new bay puritans may be drastic if seems it was the perfect religion for that time. Throughout the story Mary is tempted with signs of rescue but never truly curses God or defiles him. Personally Mary’s story is very similar to Jobs, who she quotes one or twice, in which God allows Satan to bring many hardships on him to challenge his faith because Satan believe since God blesses Job with many things when all is taken from him he will abandon God and curse him. Job never does though saying to his wife, â€Å"Shall we only except the good things from God and not the Bad?† Mary’s perseverance eventually leads to her release and she is reunited with most of her family. Her Puritan belief kept her mentally and spiritually prepared for what she had to go through and inspired her to write such a powerful story of faith and hope.

Fiction essay thesis and outline Essay

â€Å"The Lottery,† written by Shirley Jackson and â€Å"The Rocking Horse Winner,† written by D.H. Lawrence both use the stories settings in contradicting ways in order to present the seriousness of the stories. Jackson used the setting as a way to sidetrack the readers while Lawrence used the setting to  construct the story. Setting is an important piece in any story and is extremely true in the two short stories that are about to be shared. In â€Å"The Lottery†, the setting is used by Jackson in an effort to distract that reader. By distracting the reader by using beautiful memory visuals, the author is able to formulate an ironic ending to the story. The setting is illustrated to be warm, bright, happy and peaceful. Some readers may suggest that the scene is pleasant and in a certain way, suspenseful. The author described the day to be â€Å"clear and sunny, with the fresh warmth of a full-summer day.† (Jackson p.250) Jackson used the specific description in hopes to create a harmonious, calm and amiable scene for the readers. This calming mental picture of the atmosphere made the readers believe that the story will have a happy ending. The characters also played a role in throwing off the horrific ending. Throughout the story, the character all remained calm and happy. As the readers continue to read the story, they soon realize the truth about what is truly about to happen. This deceives the idea of a perfect ending. The portrayal of the buildings, town and the lottery box all added to the setting that throws readers off track of the gruesome reality of what is going to happen. In â€Å"The Rocking Horse Winner†, written by Lawrence, the setting is the center of the short story. Lawrence also used real life places throughout the world and London to help create the setting in short story. The author also used real life events and hobbies to help the reader really feel involved in the story and not feel the need to try very hard to mentally visualize the setting. Lawrence outlines the characters struggles to constantly be competing with the neighbors. The in-depth description that Lawrence uses of the house and gardens paint a picture of the conflicts of income and actual lifestyle. The mood and environment fit well with this story setting. There is not a lot needed from the author to paint the scenery. Since a lot of readers have personal experiences with horses, the readers are able to read and understand without much thought. As soon as a reader can relate to an event, the little details are not needed to pull the reader into the story. There is one similarity and a few differences in these two short stories. The one and only similarity of these two short stories is that in both of these short stories, the settings are reasonable, realistic and convincing. The settings in both stories are either real locations or places that have a huge possibility of existing. In difference, Jackson used the setting to distract the audience from the gruesome, shocking and horrific ritual of stoning that was about to take place. The readers were all swayed from this reality until the end of the story. Contradicting, Lawrence incorporated the setting into the story and used vivid descriptions to allow the readers to add their own memories. Lawrence created the setting in an effort to draw the readers in as the story unfolded. In conclusion, although both stories had a similarity, they both used the setting in different ways. Shirley used the setting to distract the readers while Lawrence used the setting as the main focal point in the story. Both stories surely provided the readers with firsthand examples on how important the setting can be in a story and how it can have a huge impact on the readers perception. â€Å"The Lottery,† written by Shirley Jackson and â€Å"The Rocking Horse Winner,† written by D.H. Lawrence both use the stories settings in contradicting ways in order to present the seriousness of the stories. Jackson used the setting as a way to sidetrack the readers while Lawrence used the setting to construct the story. Works Cited: → Kennedy, X. J, and Gioia, Dana,eds.. Literature: An Introduction to Fiction, Poetry, Drama, and Writing, Compact Interactive Edition. 7th ed. New Jersey: Upper Saddle River, 2013 →Jackson, Shirley. â€Å"The Lottery†. 250-256. →Lawrence, D.H. â€Å"The Rocking-Horse Winner†. 234-244