Business Plan Evaluation Essay Example | Topics and Well Written Essays - 500 words

Business Plan Evaluation - Essay Example Cash flow would enable the business to determine the amount of money needed to keep the business going. To strengthen the weakest link identified, methods of control should be integrated in the business plan. For example, there should be a policy control that allocated expenditures should not go over beyond 5% of the budget. Income statement should also be included as well as the initial capital outlay so the business would know how much it would compensate before it consider itself profitable. These solutions are chosen because they would strengthen the business plan and achieve the best possible outcome. They are critical for the success of the business and ensure that results would go as plan as stated in the business plan. For example, instituting control avoid costs to overshoot could make the business inefficient and less competitive if neglected. Incorporating more financial statements such as project Income Statement would enable the company to determine if its performance is consistent to the business plan or if it is underperforming. Cash flow is critical for start-up businesses such Loco Loco Dance Club because it prevents the operation of the business to run out of cash which could make stop its

The Gap in Women's Education and Employment in Saudi Arabia Dissertation

The Gap in Women's Education and Employment in Saudi Arabia - Dissertation Example The Global Gender Index was developed in 2006 as a method for measuring the gender gap in different states (Greiner 2011). The index puts together a number of indicators such as economic, education, political and health information as a means of measuring the gender gap. States registering a value near 1 will indicate gender equality while states with a 0 value reflect a wide gender gap (Greiner 2011). Saudi Arabia’s value is ranked at 0. 5713 overall. In terms of â€Å"economic participation and opportunity† Saudi Arabia’s is 132 out of 134 countries with a ranking of 0.3351 (Global Gender Index 2010, p. 9). In terms of â€Å"educational attainment† Saudi Arabia is 92 out of 134 countries with a ranking of 0.9739 (Global Gender Index 2010, p. 9). The Global Gender Index (2010) report is consistent with developments released by Booz & Company (2009). The report by Booz & Company (2009) indicates that the Saudi government has invested significant funds in public education and as a result has reduced the gender gap in terms of access to education. However, the educational opportunities for females are limited by virtue of course content and curriculum. At a result of these limitations employment opportunities for women are likewise limited (Booz & Company 2009). This research study examines the efforts made by the Saudi government to expand educational opportunities for all Saudis and how these opportunities have closed the gender gap, yet have failed to significantly reduce the employment gap among men and women. This research study is therefore divided into five parts. The first part of this research provides a literature review reflecting theories and assumptions relative to gender inequality generally and in terms of Islamic cultures. The second part of this research provides a factual background setting out demographics in terms of the female population, educational and employment statistics. The third part of the paper focuses specifically on education from both a theoretical and factual perspective. The fourth part of the paper focuses likewise on employment. The final part of the paper provides an analysis and conclusion relative to the findings presented in the previous parts of the research. I. Literature Review In an attempt to u nderstand the gender gap in employment and education in Saudi Arabia, it is necessary to examine theories and assu

Types of Tissue and Muscle

Types of Tissue and Muscle Muscle Muscle is one of the four fundamental types of tissue present in animals. It is a soft tissue primarily responsible to produce movement of a body part. Its cells convert the chemical energy of ATP into the mechanical energy of motion and exert a useful pull on another tissue. More specifically, muscle contraction serves the following overlapping functions: movement and contractile move of body contents in the course of respiration, circulation, digestion, defecation, urination, and childbirth. Stability by resisting the pull of gravity. Communication. As well as the control of body openings and passages. And finally, producing around 85% of our body heat, which is vital for the metabolism (Carey Carpenter, 2007). Classification There are three histological types of muscle—cardiac, smooth and skeletal—which differ in appearance, physiology, and function. The cardiac muscle is essentially limited to the heart, though it extends slightly into the nearby blood vessels. It is involuntary and striated because of the regular arrangement of their actin and myosin filaments. Its cells are much shorter, so they are commonly called myocytes, and are mononuclated (Saladin, 2003). The myocytes assemble branches of adjoining cells and form a network by attaching to each other in attachment points called intercalated discs that provide strong mechanical adhesions between adjacent cells. Smooth muscle lacks striations and is involuntary. Smooth muscle cells are usually long and spindle-shaped, and each fusiform cell has a single and centered nucleus (Purves et al., 2004). Small amounts of smooth muscle are found in the iris of the eye and in the skin, but most of it, called visceral muscle, forms layers in the walls of the digestive, respiratory, and urinary tracts, blood vessels, the uterus, and other viscersa (Alberts et al., 2008). The skeletal muscle type is of special interest of this thesis and will be further studied in the following sections. Skeletal muscle Skeletal muscles are, as the name implies, are bound to the skeleton by means of tendons, which means that they are volitional. It is composed of both muscular tissue and connective. A skeletal muscle cell (muscle fiber) is about 10 to 100m in diameter and 30 cm long. It is surrounded by a sparse layer of areolar connective tissue called the endomysium, which allows room for blood capillaries and nerve fibers to reach each muscle fiber. Muscle fibers are grouped in bundles called fascicles, which are visible to the naked eye as parallel strands. Each fascicle is separated from neighboring ones by a connective tissue sheath called the perimysium, usually somewhat thicker than the endomysium. The muscle as a whole is surrounded by still another connective tissue layer, the epimysium. The epimysium grades imperceptibly into connective tissue sheets called fasciae, deep fasciae between adjacent muscles and a superficial fascia (hypodermis) between the muscles and skin. It is described as striated and voluntary (Saladin, 2003). Structure The skeletal muscle tissue consists of long and cylindrical cells called muscle fibers, which are actually huge single cells that form during development by the fusion of many separate cells, called myoblasts. Each cell contains multiple nuclei adjacent to the plasma membrane, and they are about 10 to 100m in diameter and 30 cm long. The bulk of the cytoplasm inside is made up of myofibrils, which is the name given to the basic contractile elements of the muscle cell. Within each myofibril are thin actin filaments and thick specific muscle isoforms of myosin II filaments (Alberts et al., 2008). Myosin filaments are bundles of molecules with globular heads and polypeptide tails. Actin filaments consist of two chains of actin monomers twisted together. They are wrapped by chains of the polypeptide tropomyosin and studded at intervals with another protein, troponin. In most regions of the myofibril, each thick myosin filament is surrounded by six thin actin filaments, and conversely, each thin actin filament sits within a triangle of three thick myosin filaments. The myofibril consists of repeating units, called sarcomeres, which are the units of contraction, built up of approximately 2.2 microns in length. Each sarcomere is made of overlapping filaments of actin and myosin, which create a distinct band pattern. As the muscle contracts, the sarcomeres shorten, and the appearance of the band pattern changes. Each sarcomere is bounded by Z-lines, which are structures that anchor the thin actin filaments. Centered in the sarcomere is the A-band, which contains all the myosin filaments. The H-zone and the I-band, are regions where actin and myosin filaments do not overlap in the relaxed muscle. The dark stripe within the H-zone is called the M-band; it contains proteins that help hold the myosin filaments in their regular arrangement. The bundles of myosin filaments are held in a centered position within the sarcomere by a protein called titin. Cardiac muscle and smooth muscle also contain sarcomeres, although the organization is not as regular as that in skeletal muscle (Alberts et al., 2008; Purves et al., 2004.). The plasma membrane, called the sarcolemma has tunnel-like infoldings called transverse (T) tubules that penetrate through the fiber and emerge on the other side. The function of a T tubule is to carry an electrical current from the surface of the cell to the interior when the cell is stimulated. Most other organelles of the cell, such as mitochondria and smooth endoplasmic reticulum (ER), are located between adjacent myofibrils. The sarcoplasm also contains an abundance of glycogen, which provides stored energy for the muscle to use during exercise, and a red pigment called myoglobin, which binds oxygen until it is needed for muscular activity. The smooth ER of a muscle fiber is called sarcoplasmic reticulum (SR). It forms a network around each myofibril, and alongside the T tubules it exhibits dilated sacs called terminal cisternae. The SR is a reservoir for calcium ions; it has gated channels in its membrane that can release a flood of calcium into the cytosol, where the calcium a ctivates the muscle contraction process (Saladin, 2003). Muscle contraction For contraction to occur, an action potentials spreads from the end plate and when it reaches the T tubules, it continues down them into the sarcoplasm. Action potentials open voltage-regulated ion gates in the T tubules. These are physically linked to calcium channels in the terminal cisternae of the sarcoplasmic reticulum (SR), so gates in the SR open as well and calcium ions diffuse out of the SR, down their concentration gradient and into the cytosol. The calcium ions bind to the troponin of the thin filaments. The troponin-tropomyosin complex changes shape and shifts to a new position. This exposes the active sites on the actin filaments and makes them available for binding to myosin heads; the myosin heads must have an ATP molecule bound to it to initiate the contraction process. Myosin ATPase, an enzyme in the head, hydrolyzes this ATP. The energy released by this process activates the head, which â€Å"cocks† into an extended, high-energy position. The head temporarily keeps the ADP and phosphate group bound to it. The cocked myosin binds to an active site on the thin filament. Myosin releases the ADP and phosphate and flexes into a bent, low-energy position, tugging the thin filament along with it. This is called the power stroke. The head remains bound to actin until it binds a new ATP. Upon binding more ATP, myosin releases the actin. It is now prepared to repeat the whole process—it will hydrolyze the ATP, recock (the recovery stroke), attach to a new active site farther down the  thin filament, and produce another power stroke (Saladin, 2003). Classes of muscle fibers Not all muscle fibers are metabolically alike or adapted to perform the same task. Some respond slowly but are relatively resistant to fatigue, while others respond more quickly but also fatigue quickly. Indeed, skeletal muscles can be divided into fast and slow twitch fibers and its myosin heavy chain (MHC) isoform expression. Type I (MHC-I): Also called slow oxidative (SO) or slow-twitch. These fibers have relatively abundant mitochondria, myoglobin, and blood capillaries, and therefore a relatively deep red color. They are well adapted to aerobic respiration, which does not generate lactic acid. Thus, these fibers do not fatigue easily. However, in response to a single stimulus, they exhibit a relatively long twitch, lasting about 100 milliseconds (msec). Type II (MHC-II): Also called fast glycolytic (FG) or fast-twitch. They are well adapted for quick responses but not for fatigue resistance. They are rich in enzymes of the phosphagen and glycogen–lactic acid systems. Their sarcoplasmic reticulum releases and reabsorbs Ca2 quickly, which partially accounts for their quick, forceful contractions. They are relatively pale (white fibers). These fibers produce twitches as short as 7.5 msec, but because of the lactic acid they generate, they fatigue more easily than SO fibers. Some authorities recognize two subtypes of FG fibers called types MHC-IIA and MHC-IIB. Type IIB is the common type just described, while IIA, or intermediate fibers, combine fast-twitch responses with aerobic fatigue-resistant metabolism. Type IIA fibers, however, are relatively rare except in some endurance-trained athletes (Saladin, 2003). Notably, human skeletal muscle does not contain MHCIIb (Spangenburg and Booth, 2003; Schiaffino and Reggiani, 1994; Smerdu et al., 1994). In addition, ‘‘hybrid’’ fibers containing two MHC isoforms (i.e., type I/IIA, IIAX, IIXB) can also be present in muscle (Schiaffino and Reggiani, 1994; Staron and Pette, 1993). The fiber types can be differentiated histologically by using stains for certain mitochondrial enzymes and other cellular components, like using immunohistochemical procedures with antibodies against the specific MHC isoforms (Schiaffino et al., 1989; Lucas et al., 2000). All muscle fibers of one motor unit belong to the same physiological type. Nearly all muscles are composed of both SO and FG fibers, but the proportions of these fiber types differ from one muscle to another. Muscle myogenesis Vertebrate skeletal myogenesis proceeds through three stages: determination of the muscle progenitor cells, called myoblasts; proliferation and in some cases migration of myoblasts; and their terminal differentiation into mature muscle by fusing to form multinucleated myotubes (Buckingham et al., 2003; Shi and Garry, 2006). Muscle development Muscle tissuesare derived from themesodermallayer of embryonicgerm cellsin a process known asmyogenesis. All muscles are derived fromparaxial mesoderm [8].The paraxial mesoderm is divided along the embryos length intosomites, corresponding to thesegmentationof the body.Muscle cells come from two cell lineages in the myotome somite, the epimere and hypomere, which formepaxialandhypaxialmuscles, respectively. Most muscles are hypaxial. During development,myoblasts either remain in the somite to form muscles associated with the vertebral column or migrate out into the body to form all other muscles. Myoblast migration is preceded by the formation ofconnective tissueframeworks, usually formed from the somaticlateral plate mesoderm.Myoblasts follow chemical signals to the appropriate locations, where they fuse into elongate skeletal muscle cells (Sweeney, 1997). Muscle differentiation Muscle fibersform from the fusion ofmyoblastsinto multi-nucleated fibers calledmyotubes. In the early development of an embryothese myoblasts will proliferate if enoughfibroblast growth factor(FGF) is present, without differentiating. When these factors are depleted, the myoblasts cease division and secretefibronectinonto theirextracellular matrix and bind to it through _5ÃŽ ²1 integrin, their major fibronectin receptor (Menko and Boettiger 1987; Boettiger et al. 1995). The second stage involves the alignment of the myoblasts together into chains and subsequently into myotubes. This step is mediated by cell membrane glycoproteins, including several cadherins and CAMs (Knudsen 1985: Knudsen et al. 1990). Recognition and alignment between cells takes place only if the two cells are myoblasts. However, identity of the species is not critical (Yaffe and Feldman, 1965). The third stage is the actual cell fusion itself. In this stage,calciumions are critical for development (Shainberg et al. 1969; David et al. 1981). Fusion is mediated by a set of metalloproteinasescalledmeltrins (e.g., c-Met).Myocyte enhancer factors(MEFs) promote myogenesis.Serum response factor(SRF) plays a central role during myogenesis, being required for the expression of striated alpha-actin genes (Wei et al., 1998).Expression of skeletalalpha-actinis also regulated by theandrogen receptor; steroids can thereby regulate myogenesis (Vlahopoulos et al., 2005). The specific extracellular signals that induce determination of each group of myoblasts are expressed only transiently. These signals trigger production of intracellular factors that maintain the myogenic program after the inducing signals are gone. We discuss the identification and functions of these myogenic proteins, and their interactions, in the next several sections. Muscle-specific transcription factors Pax family Satellite cells and proliferating myoblasts is characterized by the expression of Pax-genes, more specifically Pax7 and Pax3, which are transcription factors that regulate proliferation. Back to the developmental stage, in the lateral portion of the somite, which forms the hypaxial muscles, factors from the surrounding environment induce the Pax3 transcription factor. In the absence of other inhibitory transcription, Pax3 then activates the genes encoding two muscle-specific transcription factors, Myf5 and MyoD. In the medial region of the somite, which forms the epaxial muscles, MyoD is induced through a slightly different pathway[1]. Pax7 residing satellite cells proliferating stage and Pax7 knockout mice completely lack satellite cells (Seale et al., 2000). Cells expressing Pax7 is believed to be important for the regeneration of myoblasts. Also the expression of Pax3 has negative effect on the differentiation and it has been shown that this transcription factor is down-regulated in muscle by ubiquitination and proteasomal degradation before differentiation can proceed (Boutet et al., 2007). Pax genes have been shown to regulate the proliferation and survival even of certain cancers such as melanoma (Muratovska et al., 2003). Pax transcription factors are downregulated upon further differentiation and other proteins predominate. Meanwhile Pax3 _____, Pax7 appears only in muscle stem cells (___). MyoD family Muscle cells come from two cell lineages in the somite. In both instances, paracrine factors instruct the myotome cells to become muscles by inducing them to synthesize the MyoD proteins (Maroto et al. 1997; Tajbakhsh et al. 1997). Or also called the myogenic bHLH (basic helix-loop-helix) proteins. The proteins of this family all bind to similar sites on the DNA and activate muscle-specific genes (e.g. the muscle-specific creatine phosphokinase gene by binding to the DNA immediately upstream from it, or the chicken muscle acetylcholine receptor) (Lassar et al. 1989; Piette et al. 1990). MyoD and Myf5 belong to this family and are particularly important for muscle differentiation [2]. Their important role during differentiation is supported by the MyoD-/-/Myf-5-/- mice lacking fully developed skeletal muscle (Rudnicki et al., 1993). Myf-5 promotes myoblasts’ proliferation and is required for the cells to initiate differentiation (Ustanina et al., 2007). Absence of MyoD inhibits differentiation in cell culture and the protein is therefore considered to be a positive regulator of the process (Sabourin et al., 1999). While Pax3 is found in several other cell types, the myogenic bHLH proteins are specific for muscle cells. Any cell making a myogenic bHLH transcription factor such as MyoD or Myf5 is committed to becoming a muscle cell. Myogenic regulatory factors (proper name?) Later than the MyoD proteins expression during differentiation, the myogenin and the myogenic regulatory factor 4 (MRF4) are present. Mice with deleted myogenin in developing myoblasts can start the differentiation process but they cannot move and die soon after birth (Hasty et al., 1993). Among other things, this suggests that myogenin is required at a later stage of the process. Similarly, MRF4 is important for the growth of muscle tissue (Rhodes and Konieczny, 1989). It is noted that the MEF2 family of transcription factors also regulate differentiation (Olson et al., 1995), but their functions are not described in this context. In summary, Pax transcription factors help to sustain it from the stem cell stage of satellite cells, MyoD and Myf-5 act as myogenic determinants in the myoblast’s diet, and myogenin and MRF4 are known as regulators of the later differentiation and muscle fiber formation (Pallari, 2011). Other factors Although some factors that induce differentiation remain unknown, some growth factors and signaling molecules have been shown to regulate the process. Notch signaling is important in animal embryonic development, in that it participates in the cell fate determination (Alberts et al., 2008). Notch has a dual role of myoblasts in that the protein has an inhibitory effect on myoblasts differentiation (Shawber et al., 1996) and simultaneously stimulates their proliferation (Conboy and Rando, 2002). The chemoattractant SDF-1 also has an inhibitory effect on myoblasts differentiation and stimulates their proliferation by activation of the PKCÃŽ ¶ (Ãâ€"demiÃ…Å ¸ et al., 2007). Moreover, differentiation requires the expression and activity of cyclindependent kinase (Cdk) inhibitors, such as p21 and p27, critical for the withdrawal of myoblasts from the cell cycle (Kitzmann and Fernandez, 2001). To fully understand the factors that regulate, activate and inhibit satellite cells and their differentiation requires even much research (Kuang and Rudnicki, 2007; Shi and Garry, 2006.). [1] developmental biology Scott gilbert [2] developmental biology Scott gilbert

The Best in Style :: Writing Writers Essays

The Best in Style ‘Style’ is an idea that can mean different things to different people. Some like to define it in terms of ‘being one's self’ and going against the norm. But after reading two prominent style guides, "Style Towards Clarity and Grace," and "The Elements of Style," I began to form a different view on the subject as it pertains to writing. When attempting ‘good style’ and ‘good writing,’ writers should try to be original and not follow every rule religiously, but still follow some common writing elements. Many can increase usability for readers. A writer could make something completely unique and the only one who'd ‘get it’ might be himself. In "Style," John M. Williams says it this way: "But however well a writer understands principles, it is not enough for those who also want to articulate that understanding to others"(2). Unless we're writing in a diary, we write to ‘talk’ to other people and the style rules aid in this. That is where the style manuals come. They both outline many useful elements, but at the same time contain some that aren't needed by everyone. The first of these manuals is "The Elements of Style." Of the two manuals read in the class, this one had the least information yet the highest usability. It outlines grammar, usage, and style elements into simple paragraphs lead by headers. The approach sacrifices the depth that's offered in "Style," but allows for quicker referencing. The first section of "Elements" outlines most of the common usage and grammar rules. Some examples are "Use proper case of proper noun," and "Use a colon after an independent clause to introduce a list†¦"(Struck and White 7-9). Some would find these rules obvious or tedious. They don't guarantee great writing or style, but its less likely that you'll make useable writings without them. Seamless grammar alone aids the flow of reading. Multiple errors might slow the reader down and divert focus to the errors rather than the main point. Even after years of college, its not uncommon to find usage and grammar mistakes in some of my own papers; therefo re, I could use much of what's in here. The next section of "Elements" talks about principles of composition. It's similar to the usage section in that nothing alone listed will create great writing, but following some rules will make better writing more likely to happen.

Mistreatment of Native Americans Essay

Land; is this a good enough reason for the mistreatment of Native Americans? Invading their lands, killing their people, breaking treaties, sending them to reservations; all this for land? The U.S. government has done many cruel and unfair things in the past, but this must rank among one of the most. It is through their sufferings and misfortunes that Native Americans are entitled to compensation from the U.S. government. Native Americans had been an old culture in America 2000 years ago. The first British settlers, the Jackson Administration, and the Westward expansion had no right to remove the Native Americans from their land. Nor did they have the right to attack Native Americans and start wars against them for land. What if aliens from another planet were to come to take over Earth because they needed our land and resources? How would we react and feel?In the process of taking their lands, Native Americans were highly discriminated against and mistreated. They were forced out of their lands, sometimes without a notice in advance, and had to take long journeys to reservations unprepared. An example of this harsh treatment was when President Jackson in the 1820’s demanded the removal of the Cherokee from their homeland in Georgia and sent them to reservations in Oklahoma and Arkansas. Their journey from their homeland to the reservations was known as the â€Å"Trail of Tears† in which 4,000 died of starvation, disease, or exposure. As if being relocated once from their homelands to reservations isn’t bad enough, Native Americans were often forced out of reservations and pushed even farther West due to broken treaties by the U.S government and expansion. The government was unfair in most of its treaties and often did not follow through with them. The Dawes Act, for example, gave each family 160 acres of land to cultivate and after a probation period of 25 years, Native Americans would be granted ownership of land and United States Citizenship. The problem with this act was that the Native Americans were nomads and therefore could not stay at a given area for a long period of time because their source of food, buffalo, was on the constant move. The U.S. government knew this and knew that the Native Americans could not stay there for 25 years, once again setting them up. In the past 200 years, Native Americans have been stripped of their land, rights, and dignity. They have witnessed the deaths of their own brothers and sisters and have become a minority in the U.S. today. They were once a proud nation of people, but today they have the highest suicide rate and lowest life expectancy. This is all in part thanks to the U.S. government and Native Americans are entitled to compensation.

Certainty and Doubt

Certainty is a pleasurable feeling to have. We often times take these feelings for granted and do not realize that nothing in the world is a hundred percent certain. Many are convinced that certainty allows one to achieve dreams and desires; but this is untrue. Many do not realize that just because something has not been proven wrong, does not mean it is necessarily true. The intelligence to have a certain amount of doubt regarding everything is truly a blessing to have. Doubt allows us to make discoveries and motivates us to achieve greatness, while certainty can on courage complacency.However, with both, a person can uncover an excess amount of greatness within oneself. Through doubting of the accepted logic of society, many have risen to greatness by discovery in the past. Thomas Edison, Alexander Graham Bell, and Christopher Columbus are all pioneers that led the world to new discoveries on different frontiers. From the creation of the light bulb and the telephone, to the discove ry of the new world, these well-known men of action had begun their journey based on their individual doubts.Due to their doubts, these men were able to make such breakthroughs that they changed the whole world. Without the doubt of the general knowledge of the time, these men would have amounted to something less than what they are given credit for today. Although, having too much doubt can lead to distrust, a person who completely lacks in doubt is considered extremely gullible. In order to avoid gullibility, you must have an amount of doubt on specific subject. Within high school, there are many lies and rumors spread throughout the student body.To avoid gullibility in this particular environment, one must start by searching for the truth. Having doubts on the rumors that are spread throughout the student body can reveal what is the truth. On the other hand, acquiring an excessive amount of doubt can lead to distrust and misunderstandings amongst one’s peers. Doubt can oft entimes be just as polluting to the mind as gullibility. Being doubtful could lead to stress-related health problems such as paranoia and anxiety.We oftentimes do not realize the depth of seriousness of stress that doubt could lead to and we tend to brush it away without giving it recognition. Just like doubt, some certainty in moderation contributes to peace of mind, just as doubt would. Certainty itself is birthed from doubt. It is from ones doubts that a person gains their individual certainty. Without doubt, certainty would never be reached. Many had doubted Thomas Edison when he had attempted to invent the light bulb. It is because that Edison had doubted their beliefs that he had certainty within his own.It was because of this combination of doubt and certainty that Edison was able to progress the discovery of the light bulb. Having one without the other, it would have been nearly impossible for most leaps and bounds in any field of discovery. However, by having both, a person can have the motivation to explore the unknown world. By having doubt in another’s ideals can give a person purpose to search for another explanation. And by having certainty in one’s own beliefs, due to doubt, a person has the self-confidence to make the steps necessary to achieve their goal.A balance of both could lead to plethora potential in any area of ideals and concepts. To achieve one’s goals, it is certain that doubt is a major contribution to success. Having doubt is a great motivator to acquire, but an abundant amount could lead to paranoia and anxiety. Being certain on a specific subject can lead to peace of mind, but it also can prevent society world from feeling the need to make new discoveries. Both of these states of mind are needed to truly unlock one’s own potential and imagination.

Sociology Coursework Help

Sociology Coursework Help Sociology Coursework Help Sociology Coursework Help: Order Custom Writing If you are in need of professional sociology coursework help, you have found the right place to get assistance with writing. Our team of coursework writers is able to handle the most challenging assignments and help you with writing your coursework even if you have to submit the final draft tomorrow morning! The following sociology coursework excerpt is written by one of our experienced writers. If want to get a well-written sociology coursework free of mistakes and in full accordance to instruction points, you should try our custom writing services. We are open 24/7 and we can definitely handle any assignment, within any deadline, and on any topic! In addition, you may review free sample Much Ado About Nothing coursework and read tips on writing business studies coursework. Our paper writing blog includes numerous tips on term papers and reports, essays and dissertations, and all other types of academic assignments! Sociology Coursework Help: Read Excerpt Sociology is a field of study that is more than just a couple of college courses and text books full of abstract theories. Although many other areas of study also are applicable outside the classroom, sociology is one that truly permeates every aspect of life. It is no surprise that many people are now turning to sociology to better understand their lives, careers, and everyday interactions. Many people are realizing that sociology is more than just that required undergraduate college course that they didn't think would ever apply to their life or help advance their career. Karen Jensen explains in the book Careers in Sociology by W. Richard Stephens that I wasn't much interested in the social sciences. I saw my future in medicine, as a nurse (Karen Jensen as quoted by Stephens, 28). Karen later realized though that in order to better understand her professional surroundings and organization she needed to reconsider sociology as a possible and rewarding area of study. Karen says she found in organizational sociology a helpful understanding, or framing, of the work issues (Karen Jensen as quoted by Stephens, 28). Considering that sociology is the study of people and society, it is applicable in almost any person's life and career. Everyone can benefit from learning about sociology and understanding the social aspects of their own organization, coworkers, and, of course, themselves: People have found their way to sociology in numerable ways, which is what the book Careers in Sociology accurately illustrates. Some people reviewed in the book knew right away that their careers would come out of their love for sociology, whether it was a career doing statistical studies or doing social service work in the community. Whatever the career outcome may be, many people started with an interest in sociology in school that lead them into to a certain career. Other people, however, found sociology only after they had already advanced in a career or another area of study. For many, sociology offered something that was needed in their careers or education, whether it was statistical research methods, understanding work organization, or applying theory. Read also: MBA Essay Help Law School Admission Essay Statement of purpose essay Scholarship Application Essay College Essay Helper