Nature of Cortical Bone

Nature of Cortical Bone Nature of cortical bone from the millimeter to Nano-meter scale: Likewise, with every organic tissue, cortical bone has a various leveled structure. This implies cortical bone contains a wide range of structures that exist on many levels of scale. The various leveled association of cortical bone is characterized in the table below: Cortical bone structural organization: Level Cortical structure Size range h 0 Solid material >3000mm 1 Secondary Osteons (A) Primary Osteons (B) Plexiform (C) Interstitial Bone 100 to 300mm 2 Lamellae(A,B*,C*) Lacunae(A,B,C,D) Cement lines(A) 3 to 20mm 3 Collagen-Composite(A,B,C,D) 0.06 to 0.6mm Table 1 Cortical bone structural organization along with approximate physical scales. A Structures found in secondary cortical bone B Structures found in primary lamellar cortical bone C Structures found in plexiform bone D Structures found in woven bone * Structures present in B and C but much less than in A Figure 1 Cortical Bones Section view Woven-fibered cortical bone: Woven bone tissue is frequently found in extremely youthful developing skeletons less than 5 years old. Woven bone is accepted to be less thick in light of the free and muddled pressing of the sort I collagen filaments. woven bone is less hardened than different sorts of bone tissue in light of the commence that break callus is made predominantly out of woven bone and is a great deal less solid than typical bone tissue. Coordinate estimations of woven bone tissue solidness have not been made. Plexiform Cortical Bone Tissue: Figure 2 Plexiform Bone Section view Plexiform bone emerges from mineral buds which develop first opposite and after that parallel to the external bone surface. This developing example creates the block like structure normal for plexiform bone. Every block in plexiform bone is around 125 microns (mm) crosswise over. Plexiform bone, like essential and optional bone, must be shaped on existing bone or ligament surfaces and cant be framed all over again like woven bone. Because of its association, plexiform bone offers a great deal more surface territory contrasted with essential or auxiliary bone whereupon bone can be shaped. This expands the measure of bone which can be shaped in each time allotment and gave an approach to all the more quickly increment bone firmness and quality in a brief timeframe. While plexiform may have more noteworthy firmness than essential or optional cortical bone, it might do not have the break capturing properties which would make it more appropriate for more dynamic species like canines (pooc hes) and human Primary Osteonal Cortical Bone Tissue: they dont contain the same number of lamellae as auxiliary osteons. Likewise, the vascular channels inside primary osteons have a tendency to be smaller than optional osteons. Consequently, primary Osteonal cortical bone might be mechanically more stronger than secondary Osteonal cortical bone Secondary Osteonal Cortical Bone Tissue: Auxiliary osteons contrast from essential osteons in that optional osteons are framed by substitution of existing bone. Auxiliary bone outcomes from a procedure known as remodeling. In rebuilding, bone cells known as osteoclasts first resorb or destroy an area of bone in a passage called a cutting cone. Taking after the osteoclasts are bone cells known as osteoblasts which then frame issue that remains to be worked out up the passage. The osteoblasts top off the passage in stunned sums making lamellae which exist at the second level of structure. The osteoblasts dont totally fill the cutting cone however leave an inside part open. This focal bit is known as a Haversian channel (see cortical bone schematic). The aggregate breadth of an auxiliary osteon ranges from 200 to 300 microns (meant as mm; equivalent to 0.2 to 0.3 millimeters). Notwithstanding osteons, optional cortical bone tissue likewise contains interstitial bone (umich.edu, n.d.) Figure 3 Secondary Osteonal Cortical Bone Tissue Performance of Bone as a tough and light material: Most long bones appear, at first sight, to be unduly firm for the capacity they need to serve. If distinctive ones are made of bone material with similar properties, the thicker they are, the stiffer they will be. They will likewise, obviously, be heavier. Consequently, it may appear that there is a basic tradeoff amongst solidness and mass. Notwithstanding, one cant consider the firmness and mass of the bone alone. One must consider additionally the mass of the muscle and bone framework together. Regularly, as when a weight is held in the hand with the elbow twisted, the framework ought not divert at all affected by a heap. Assume that the muscle is equipped for bearing the heap. To do this, it needs a specific cross-sectional area, however its length is irrelevant. The load is appied through the hand toward the end of the bone, which will avoid to some degree, however the diversion can be taken up by compression of the muscle. On the off chance that the bone were thin and in this way light, yet adaptable, then after the load was applied, the muscle would need to get far to balance the extensive diversion of the finish of the adaptable bone. Assuming, on the other hand, the bone was stout and along these lines heavy, however stiff, after a similar load was applied, the muscle would need to contract just a short approach to balance the slight adaptability of the bone. The muscle appended to the adaptable bone would need to be longer, in light of the fact that there is more redirection in the unresolved issue up, than the muscle joined to the solid bone, and on the grounds that the two muscles must have same cross-sectional zone, the muscle connected to the more adaptable bone would accordingly be heavier. As it were, one is paying for daintiness in the bone by weight in the muscles and the other way around. The pinnacle worries in the bone would be around 75 MPa when the framework was lightest. What is fascinating about this outcome is that the anxiety esteem is generally the same as the most extreme burdens found in the legs of numerous warm blooded animals amid strenuous exercises, for example, running quick or bouncing. At the end of the day, if bones were intended to have an adaptability that would limit the mass of the bone-muscle framework, the anxieties forced by the muscles would be of the request of 75 MPa, and this is generally what we find that bones are uncovered to. It might be, in this way, that the security considers that we see bones are, inexactly, controlled by the ideal firmness for least general weight. In the event that bone material were considerably weaker than it really is, bones would be heavier, thus drive the relationship, and they would be stiffer than was ideal for least mass. Remodeling of Cortical Bone and Cancellous Bone: Cortical bone: remodels by osteoclastic tunneling (cutting cone) osteoclastic resorption > layering of osteoblasts > layering of lamellae > cement line laid down. osteoclast make up head of cutting cone, followed by capillaries and then osteoblasts which lay down the osteoid to fill the cutting cone. sclerostin inhibits osteoblastogenenesis to decrease bone formation. cortical bone continues to change over time. cortical area decreases as age increases linked to increase fracture risk medullary canal volume increases as age increases Cancellous bone remodels by osteoclastic resorption osteoblastic deposition of layers of lamellae (Moore, n.d.) Figure 4 Bone rebuilding cavity diagram. (Disord, n.d.) Bone remodeling happens in what Frost named the Basic Multicellular Unit (BMU), which includes the osteoclasts, osteoblasts, and osteocytes inside the bone-rebuilding cavity (Fig. 4). In cancellous bone rebuilding happens on the surface of trabeculae and keeps going around 200 days in ordinary bone. The rebuilding cycle can be as short as 100 days in thyrotoxicosis and essential hyperparathyroidism and surpass 1,000 days in low turnover states like Myxedema and after bisphosphonate treatment. Remodeling is started by osteoclastic resorption, which dissolves a resorption lacuna, the profundity of which fluctuates between 60 in youthful people and 40 ÃŽÂ ¼m in more established people. The resorption time frame has a middle span of 30-40 days and is trailed by bone development over a time of 150 days (Fig. 4). In typical bone the aftereffect of the remodeling cycle is finished refilling of the resorption lacuna with new bone. In sickness states like osteoporosis, the fundamental defo rmity is that the osteoblast cant refill the resorption lacuna prompting to a net loss of bone with each remodeling occasion. In cortical bone remodeling continues in passages with osteoclasts framing cutting cones evacuating harmed bone took after by refilling by osteoblasts in the end cone happening behind the osteoclasts. In typical bone the span of the renovating cycle in cortical is shorter than in cancellous bone with a middle of 120 days. The aggregate surface of cancellous bone is totally renovated over a time of 2 years. As opposed to renovating destinations in cancellous bone, which are near red marrow, known to contain osteoprogenitor cells, rebuilding locales in cortical bone are far off from red marrow. Thusly, it was expected that the components of bone remodeling were distinctive in cancellous versus cortical bone, i.e. that the cells required for bone rebuilding in cancellous bone voyaged straightforwardly from the red marrow to bone surfaces in cancellous bone, whil e cells achieved cortical remodeling destinations bone by means of the vasculature. (Eriksen, n.d.) Targeted and non-targeted remodeling: Through its steady removal and renewal of damaged bone, bone redesigning secures skeletal trustworthiness all through life. It has turned out to be standard to recognize targeted on and non-targeted on (stochastic) rebuilding. Non-targeted on rebuilding means control renovating by hormones like PTH, thyroxine, development hormone and estrogen, additionally antiresorptive medications like bisphosphonates may influence non-targeted on redesigning. It appears that the primary pathway is through regulation of osteoclasts, which then by means of the coupling amongst resorption and development along these lines influences osteoblast movement. Directed redesigning secures expulsion of harmed bone through targeted resorption. Osteocytes are the most plenteous cells in bone, and their passing by microdamage has been recommended to be the significant occasion driving in the start of osteoclastic bone resorption. In typical bone. Resorption lacunae are 3 times more regular in relationship with microcracks, showing that redesigning is related with repair of such microdamage. Harmed osteocytes advance separation of osteoclast forerunners driven by discharge of M-CSF and RANKL. In cortical bone there is confirmation to recommend, that microdamage enacts new BMUs, as well as may direct the development of existing BMUs as they passage through the cortex. It likewise appears that the level of harm to the osteocyte organize decides osteocyte metabolic reactions to stacking and impacts targeted on renovating. Investigation of the relationship of between mean microcrack length and BMU resorption space thickness in cortical bone shows that BMUs have a powerful region around 40 times more prominent than their genuine cross-area, which proposes that osteoclasts in the cutting cone of cortical BMUs can detect and direct toward microdamage. The connection amongst microdamage and start of bone renovating is further validated by the way that osteoclastic resorption is expanded in old bone. how cells are effected by mechanical loads, fluid or forces: In physical movement, mechanical strengths are applied on the bones through ground response forces and by the contractile action of muscles. These physical strengths result in an upkeep or pick up of bone mass, additionally drive adjustment of bone structure. The adjustment of trabecular bone engineering as per the requests of mechanical utilization is apparent in the vertebrae, where the trabeculae are transcendently situated in the longitudinal course, giving the most ideal imperviousness to pressure break of the vertebrae with an insignificant utilization of material. A great case of the empowering impact of mechanical stimuli on bone mass is given by the bones in the lower arm of tennis players. The ulna and radius in the arm that holds the racket are presented to high effect forces, prompting to little distortions in the hardened bone grid and an expansion in bone mass of 5 to 10% contrasted with the ulna in the contra-parallel arm. The distortions that happen in bones subsequen tly of physical forces are communicated as strain, where 1,000 microstrain breaks even with a 0.01% change long of the bone contrasted with its unique length. Lively exercise prompts bone strains up to 1,000 microstrain in people. By examination, controlled episodes of entire bone stacking bringing about 1,000 to 3,000 microstrain are anabolic in exploratory creature models of one-stacking, exhibiting the potential for fitting physical exercise schedules as a way to improve bone mass. The cells likely in charge of detecting the physical stimuli got from mechanical forces applied on bones are the osteocytes, which include more than 90% of the bone cells. Osteocytes are stellate cells that are inserted inside the calcified bone framework. They shape an extensive number of cell-cell contacts through their long slim cell forms, framing a syncytium fit for fast transduction of signs. Osteocytes are exceptionally mechanosensitive, likely more so than periosteal fibroblasts or osteoblasts, and change the creation of a large number of flagging particles when activated by a mechanical force. Mechanically initiated osteocytes create flagging atoms like bone morphogenetic proteins (BMPs), Wnts, prostaglandin E2 (PGE2), and NO, which can adjust the enrollment, separation, and action of osteoblasts and osteoclasts. Along these lines, osteocytes are hypothetically equipped for coordinating bone adjustment in light of mechanical stimuli. The loss of bone mass after rear appendag e emptying of mice was forestalled when 80% of the osteocytes were removed. Osteocytes accordingly appear to empower osteoclast action without day by day mechanical burdens, a capability that has been affirmed in vitro thinks about. To be sure it has been indicated as of late by two free gatherings that RANKL generation by osteocytes decides bone mass in grown-up mice, showing the significance of osteocytes in the control of bone mass. Strangely, a similar review exhibiting the prerequisite of osteocytes for intervening emptying instigated bone misfortune likewise demonstrated that the anabolic reaction of unresolved issue (does not require the nearness of living osteocytes. Be that as it may, this does not wipe out the part of osteocytes in intervening the anabolic reaction of unresolved issue under typical conditions. If osteocytes are the expert mechanosensing cells of bone, then how do these cells sense entire bone burdens? One prominent hypothesis involves that network trains encompassing the osteocyte cell forms drive a thin layer of extracellular fluid encompassing the osteocyte cell procedures to stream over a weight angle. This stream of fluid opens up nearby strains, and is along these lines the mechanical signal that is eventually detected by the osteocytes. There is adequate exploratory proof to bolster disfigurements of the bone grid drive an interstitial fluid stream. A stream of additional cell fluid around the osteocytes thus of bone tissue strains, by stacking of sheep tibiae and taking after the dispersion of tracers through the lacuno-canalicular system. All the more as of late, Price et al.(2011) utilized fluorescence recuperation in the wake of photobleaching for imaging fluid dislodging synchronized with mechanical stacking, to demonstrate that the mechanical stacking of mouse tibia upgraded fluid transport through the lacuno-canalicular framework, exhibiting the connection of canalicular fluid stream with mechanical load. Moreover, a few agents announced that it is not the measure of strain connected to an entire bone that impacts bone development, yet the rate at which the strain is connected. References Disord, R. E. (n.d.). Rev Endocr Metab Disord. Retrieved from Reviews in Endocrine Metabolic Disorders: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3028072/figure/Fig1/ Eriksen, E. F. (n.d.). Reviews in Endocrine Metabolic Disorders. Retrieved from Reviews in Endocrine Metabolic Disorders: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3028072/ Moore, D. (n.d.). Orthobullets. Retrieved from Orthobullets: www.orthobullets.com/basic-science/9008/bone-remodeling umich.edu. (n.d.). Introduction to Biosolid Mechanics. Retrieved from umich.edu: http://www.umich.edu/~bme332/ch9bone/bme332bone.htm

Capital Punishment :: essays research papers fc

CAPITAL PUNISHMENT Crime is a part of our lives, it is everywhere! Controlling or eliminating crime and criminals is no easy task but it can not be ignored. Making sure those that are rightly accused to a just punishment is very important. There are many reasons why people commit crimes; some do it for the shear of enjoyment others do it to be able to survive. The death penalty should not be used for every crime, although I strongly believe it should be used for those who commit very violent crimes, such as murder. Deterrence is the means to punish those who commit crimes as an example and to create fear in others who might want to commit a crime. The death penalty is one way we use to create fear! Most people fear death one way or another. Ernest van den Hagg, in his article â€Å"On Deterrence and the Death Penalty† mentions, â€Å"One abstains from dangerous acts because of vague, inchoate, habitual and, above all preconscious fears† (193). Without this type of deterrence what would stop criminals that already in prisons for life keep from killing another inmate or a staff that works there? There are those that are against the death penalty called anti-death penalty advocates, they say that imprisonment by it self is enough to deter criminals, killing criminals is not needed! Hugo Bedau argues in his article, â€Å"Capital Punishment and Social defense† says, â€Å"Crimes can be deterred only by making would-be criminals frightened of being arrested, convicted, and puni shed for crimes† (301). According to Richard Seiter in his book â€Å"An Introduction Corrections† states that â€Å"From 1986 to 1997 the number of males that went to prison increased 70% while the number of females increased 118%† (210). It seems that just going to prison isn’t enough for some people. Without the death penalty insane people would kill others thinking they could get away with it and if not what’s the worst going to happened to them â€Å"Prison for life†! One could argue that the death penalty probably has saved someone’s life because it deterred someone from committing that act! Still anti-death penalty advocates believe that the death penalty is irreversible and that some people who really weren’t guilty are sentenced to death. Yes the death penalty is irreversible but the chance that an innocent person gets sentenced to death is extremely low. The judicial system goes threw extreme measures to insure this doesn’t happened! They do this by making sure that only when guilt is determined by clear and convincing evidenced be punished.

Motivation and Organizational Culture Essay

A psychologically safe and healthy workplace is one that promotes the well-being of an individual. It is creating an environment that is enjoyable and respectful of all people, regardless of cultural or ethical differences. Japanese immigrant, Ayame Nakamura, is employed as a pharmaceutical project manager in California. The confrontational management style interferes with Ayame’s cultural background. Workplace motivation can affect areas such as productivity and influence organizational culture. Management Roles The main goal of management and workplace psychology is to create an environment that is conducive to allowing employees to perform at their highest potential. Management’s role in workplace psychology is a large component of overall satisfaction. Initially, there responsibility is to provide a workspace that is fair and diverse. This provides employees the opportunity to learn and grow within the company by giving them a chance for personal development. Psychologically, management should state clearly their expectations. Their role should be to support, promote flexibility, provide advancement opportunities, and offer praise when it’s due. Employees are more likely to put forth great effort with the knowledge that those efforts will be noticed and reviewed. The energy that management puts into their employees is paramount to creating growth both in the individual and the company. (Robbins, et al, 2011) Cultural Background and Feedback Language and actions are used to express ourselves or to get our ideas across to another. Verbal, nonverbal, and visual clues are all various methods using to establish, maintain, and modify relationships. Effective communication, regardless of culture, has the ability to help or harm any potential business relationship. Culture can be defined as the  characteristics of a particular group of people that may be defined by language, religion, social habits, or music. In the case of Ayame, a Japanese immigrant, her culture places a high emphasis on collectivism. Ayame’s culture places a high emphasis on giving the business aspect priority over placing emphasis on each individual in it. The pharmaceutical company she works for has a confrontational style that conflicts with her cultural background. Firm, consistent feedback that done in a gentler manner would encourage Ayame and keep her motivated and keep in line with her cultural beliefs. Ayame’s background encourages f ace to face communication that is a consensus of both herself and management. I would encourage the pharmaceutical company’s management team to review their communication strategies and have a meeting with Ayame to ensure that all parties are satisfied with the terms of employment. (Robbins, et al, 2011) Motivation Techniques Ayame’s motivation is lacking due to cultural issues in management’s confrontational management style. This confrontational style makes it difficult for her to receive and process feedback and is affecting her motivation. The pharmaceutical company needs to identify what motivates people and what does not. People tend to do their best work when they are in an environment in which they feel valued. Simple changes such as â€Å"thank you,† or â€Å"great job!,† can encourage an employee to go the extra mile. These simple changes could encourage Ayame and motivate her to put her best foot forward. According to Hackman and Olman (2011), â€Å"any job can be described in terms of the following five core job dimensions: skill variety, task identity, task significance, autonomy, and feedback. (pg 273). Ayame is likely motivated to do her job well, is able to complete the tasks, and can do so in an effective manner. She does, however, struggle in the final dimension. Management should support Ayame in the top three job dimensions. By guiding her through their expectations, they are giving Ayame a chance to show her skillset and they are supporting her in that position. Employees who are supported and feel valued are more productive. Areas such as job design, delegation of duties, and recognizing the manner in which Ayame processes and receives information are all methods of increasing her motivation. (Robbins, et al, 2011) The manner in which the world perceives  us and how we are perceived comes down to our actions. Motivation is the force that drives us to act, work harder, and that pushes us to succeed. There are several types of motivation with each type influencing how we respond in a different matter. Being mindful of each other cultural and ethical belief can affect the performance of all employees. Each person adds something to the melting pot that is the United States of America. In order to effectively motivate and go forward, each person needs to be mindful of the next. References Robbins, S., Decenzo, D., & Coulter, M. (2011) Fundamentals of management: Essential concepts and applications (7th ed.). Boston, MA: Prentice Hall. Sarafino, E.P. (2011). Health psychology: Biopsychosocial interactions (7th ed.). Hoboken, NJ: J John Wiley & Sons, Inc.

Plants Essays - Botany, Biology, Plant Anatomy, Plant Morphology

Plants Essays - Botany, Biology, Plant Anatomy, Plant Morphology Plants Plants are the basis of the food pyramid for all living things, even other plants. They have always been very important to people, not only for food, but also for clothing,weapons, tools, dyes, medicines, shelter and a great many other purposes. Both humansand animals benefit from plants. We eat many different types of plants such as fruits andvegetables. We also use plants for our herbs. Plants are also used to manufacture manydifferent products such as shampoos, rubber, paper, and camera film. In some countries,fermented sugar cane is used instead of gasoline. Animals use plants in many differentways also. They eat many fruits and other plants. Many animals use plants for shelter. Plants also provide animals with protection from predators. The destruction of differentplants sometimes leads to animals becoming endangered or extinct. The basic structure of plants consists of roots, stem, leaves, flower and/or fruit or seeds. A flower is the part ofthe plant that makes the seeds. The main parts of a flower are the carpels and stamens. These parts are often found in the center of the flower. There are egg cells in the carpeland pollen cells in the stamen. All flowers have four basic parts: sepals, petals, carpels,and stamen. Different flowers have different numbers and shapes of these parts. Mostplants can be divided into one of two general categories: herbaceous or woody plants. Herbaceous plants have soft stems, while woody plants are tree-like. Herbaceous plantsproduce completely new stems each year. The approaching cold weather causes the newstems to die back to the ground. Some herbaceous plants survive periods of cold byforming underground bulbs, or tubers used for food storage. Many herbaceous plantscomplete their life cycles within one growing season and the whole plant dies, even theroots. These annuals produce seeds that will form new plants the next year.Land plantsare divided into two groups based on whether they have vascular tissues or not. Allnonva scular plants are placed in one division. There are nine divisions of vascular plants. These are divided based on whether they form seeds or not.Division Bryophyta -nonvascular plantSClass - Musci - the mossesDivision Pterophyta - ferns, group ofseedless plantsDivision Coniferophyta - cone-forming seed plantsDivision Anthophyta -fruit-forming seed plants Class - Monocotyledonae Class - DicotyledonaeChapter2ROOTSRoots help to anchor a plant in the ground. . Plants generally conform to one oftwo root systems, a taproot system or a fibrous root system. . When the plant is grownfrom cuttings, a fibrous root system will form.Every root grows a mass of tiny hairs nearits tip to absorb water from the soil. These tiny hairs are called root hairs, and they aremade from cells. They take water to the main root. The main root brings the water to themain plant. The roots also help hold the plant in the ground. The inside of a roothas four different parts. The epidermis is the outside part. It is like our skin. It protectsthe inside parts of the root, like our skin protects us. Plants take in water from the soilthrough their roots. The water passes through the vascular rays until it reaches the centerof the root, the stele. This is where the veins are located. The veins are called xylem. They carry the water and food through the plant. Between the epidermis and the stele isthe fleshy cortex.Land plants are divided into two groups based on whether they havevascular tissues or not. All nonvascular plants are placed in one division. There are ninedivisions of vascular plants. These are divided based on whether they form seeds or not.Stems support the plant. They transport vitamins, minerals and water up and down insidethe plant. They also serve as a storage area for plants.There are several different types ofstems such as, woody, herbaceous, stolons, rhizomes, and bulbs. These are describedbelow. Herbaceous, non-woody, plants have vascular tissues arranged in bundles. Thesevas cular bundles are either scattered throughout the stem or found in a ring toward theedge of the stem. The stems of herbaceous plants remain upright because of the structureof the cells in the stem. The individual cells have rigid walls. . In woody plants, thephloem is located in a ring near the stem while the xylem is located more to the inside. The stem also takes on different appearances

History of Republicanism Essays

History of Republicanism Essays History of Republicanism Essay History of Republicanism Essay Essay Topic: On Liberty The Republic Introduction A wise man once said, you cannot know where you going if you do not know where you are from. These wise words had the intention of reminding people how important history is and why it should not be overlooked. As much as history remains unchanged and there is nothing that can be done to change it, history defines and gives us a sense of belonging. It is through history that we get to learn a lot of things about our past, in the both lines of success and failure. What is republicanism In the history of United States, republicanism has been a major political philosophy ever since its founding. This philosophy was founded in the mid-18thcentury by the Founding Fathers. The Founding Fathers refers to the thirteen individuals of each British Colony in North America. They are called the Founding Fathers because of the great roles they played in liberating the United States of America against the British rule. They are directly affiliated with the liberation of the Americans from colonization. It also refers to those who took part in signing the Declaration of Independence. They came up with the philosophy of Republicanism which had its basis on liberty and campaigning for individual rights. The Founding Fathers are also knows as the leaders of the free world as they made United States citizens sovereign and rejected systems such as monarch and aristocracy. The Great Awakening Definition The Great Awakening refers to a movement that was in British America and Protestant Europe. This movement was evangelical and based on revitalization. The most impacted group by this movement was the American colonies. The values and enlightenment it brought played a crucial role in the attainment of independence of the United States of America. The Great Awakening left a large impact on Protestants in America. The teachings and values upheld by the Great Awakening had a lot to do with personal salvation. The listeners obtained a need of salvation and Jesus Christ was the way to that. Several rituals were done away with during this period such as: hierarchy and ceremonies. Ethics and personal morality were highly advocated for. Connection The two movements have a lot in common. The first teaching that they both advocate for is the freedom of individual. The Great Awakening preached for personal reflection and salvation from evil. People were being asked to accept Jesus Christ who is the key to salvation so as to free them from evil and sins. On the other hand, Republicanism was against colonization and stressed on individual rights as paramount. Republicanism was all about the freedom of people to choose and decide their lives in the lines of politics, leadership, economic activities and lifestyle. Secondly, the two movements had a sense of rebellion. They were formed to oppose the normal way of life that they were not contented with. Republicanism was against colonization and denial of liberty. They did not like how leadership of the states was decided by selected few and the rest had no say. They were against the idea that individual rights were not put to consideration and that the independence of citizens was limited in so many ways. The Great Awakening was against the Protestant way of life. They were against the various rituals conducted and wanted to enhance Christianity.

Lesson Plan for Language Arts on The Great Gatsby for grade 9th Coursework

Lesson Plan for Language Arts on The Great Gatsby for grade 9th - Coursework Example language structure, language conventions (e.g., spelling and punctuation), media techniques, figurative language, and genre to create, critique, and discuss print and non print texts. Students conduct research on issues and interests by generating ideas and questions, and by posing problems. They gather, evaluate, and synthesize data from a variety of sources (e.g., print and nonprint texts, artifacts, people) to communicate their discoveries in ways that suit their purpose and audience. The literature selection should be independent per group but each group member should research on an area in the group’s selected topic. Each group should coordinate with each other to come up with an appropriate topic and determine on the areas to be researched by each student. Students are free to use online resources like journals, eBooks and online articles to research on the decided topic. The institution library can also be used as a source of information for student research. Students should also know the symbols used in the text such as the characters embedded in the novel. The time when the novel was set as well as the meaning of the great Gatsby should also be comprehended. Students are supposed to do a thorough research on the chosen topic with different areas of research to come up with a clear and a complete perspective of an issue. Use all appropriate resources to do the research such as the academic journals on the internet or library materials. After performing individual research on the topic, the students should then discuss the subject from a general point of view in which all students compare and contrast their work. All the research outcomes should address an issue in

Family Law Case Study Example | Topics and Well Written Essays - 3500 words

Family Law - Case Study Example (Morley 2005 International Law) At this point I would explain to Dorothy that in order to proceed she would be required to show that the marriage is unsalvageable and the both her and George agree that the marriage should be dissolved. This is not to say that if George does not want a divorce, Dorothy will not be able to file for one. What it means is that George could contest it and if that situation arises she will need support to present to the court to prove that there are grounds and conditions for the divorce. I would also advise Dorothy to talk with George and pursue coming to an agreement prior to filing for the divorce. This is because if the divorce is somewhat amicable and the property and assets have been discussed and there will not be a fight over the divorce will go more smoothly both in court and for them personally. The following law pertains to the circumstances being somewhat amicable: 1.7.1 The decree nisi is the court's decision to grant a divorce provided that nothing comes to light which may alter the Judgement. The certificate given as a result of this decision shows the period of time that is to be allowed for this purpose. If nothing comes to light, the decree absolute is issued at the end of the waiting period. The decree nisi is therefore a temporary document only and the decree absolute must always be seen. (Morley 2005 International Law) I would advise Dorothy that due to the length of her marriage the assets of both her and George would in most circumstances be split down the middle. However if they come to an agreement regarding particular property or assets I would strongly advise Dorothy to talk it out with George and when they reach an agreement on how the property and assets should be divided to contact me, her divorce attorney, so that I can prepare the proper legal document indicating the property and asset agreement. I would also advise Dorothy to include anything personal or sentimental even though she may not think it of value. In order to ensure receipt of items of sentimental or other value she must notify me so that I could include it in the formal legal documents. At this time I would also advise Dorothy that it would not be wise for her to assume any agreements made between George and herself would necessarily be kept and that any agreements made, of any kind for property, assets, sentimental items o r anything else needs to be put into the divorce paperwork. After discussing all of this information with Dorothy I would then go over divorce conditions in detail and strongly advise her that the fact that she wants to make a fresh life for herself while she is still young enough to enjoy it is not a good condition. Divorce conditions include: In England & Wales obtaining a divorce requires a written application (called a petition) to the court by either the husband or the wife. Applications for divorce are dealt with by the County Court and spouses have to apply to that court for their divorce. The applicant has to prove that the marriage has broken down irretrievably and has to provide evidence of one of the five facts listed below: No application for divorce can be made until at least one year after the date of the marriage.