Organizational Structure Essay Example | Topics and Well Written Essays - 2750 words

Organizational Structure - Essay Example It can also be termed as the arrangement of lines of rights, authority and duties and communication of an organization. The organizational structure depends on the organizations objectives strategy, and is divided into two namely the centralized structure and the decentralized structure. The centralized structure is the top layer management, which has most decision-making power and control over all departments. The decentralized structure, on the other hand, allows the decision-making powers to be divided among different departments where some of the divisions or departments have some degrees of independence. The structure of an organization is important in as it provides checks and balances within the organization that differs with the sociological idea of power that states that top level managers in an organization have absolute control powers of the organization and can make any decisions for the organization without consultation. Thus, the organizational structure is essential in provide control and checks and balances on how the organization is managed as procedures follow a certain protocol in the organization. The topic is important to me professionally because it will enable me to understand how the decision-making process in the organization should be conducted and help me in improving in my career. Organization structure is important to managers because depending on the structure of the organization the managers manage to control and make decisions pertaining the welfare of the employees, as well as, achievement of goals and objectives. For example, when employees raise concerns in the organization their grievances are taken to the top-level management to establish the issue with the employees. By so doing, the organization manages to have control over the employees and gain their confidence. Additionally, managers find ways to motivate their employees ensuring that all of them are satisfied with their job description therefore it provides a

Customer satisfaction in mobile industry in Egypt an empirical study Thesis

Customer satisfaction in mobile industry in Egypt an empirical study - Thesis Example Against this backdrop, it’s essential to consider the extent to which the product and service quality has an impact on customers in mobile industry in Egypt (Fornell, 2001). Customer satisfaction is the key in any business undertaking, especially success or failure of the business is mainly dependent on it. In the past, the importance of customer satisfaction was not recognized as an important metric in determining critical success factor related outcomes due to the fact that many entrepreneurs focused attention on the increase of new customers rather than retaining the existing customers. It was a pure number game. Li, Jiayin, and Huaying (2008) suggest that many companies have identified the importance of customer satisfaction especially by service-centric companies such as mobile telephone service industry on the premise that customer satisfaction is a growth factor directly influenced by the quality of service. Thus many mobile service producers in the global arena have ad opted customer satisfaction as a high priority in achieving corporate goals. Though customer satisfaction is a mental perception, many techniques and methods are developed to measure the effectiveness of it. For example, the American Customer Satisfaction Index (ACSI) model is an economic indicator which analyses the degree of customer satisfaction in the US. Claes, et al (1996) argue that this model has mainly been developed with five variables – perceived value; satisfaction; loyalty; reputation; and recommendation. Thus the service quality of the mobile industry depends on the delivery excellent or superior service to fulfill customer expectations, and it occurs for most services during the interaction between a customer and the mobile service provider. According to Anckar, and D'Incau (2002), the mobile service producers in Egypt have efficiently created a perceived value on the customer's mind through real value generation such as providing

Dyscalculia: Causes, Effects and Interventions

Dyscalculia: Causes, Effects and Interventions ABSTRACT This project suggests briefly about the Dyscalculia and the possible biological bases of dyscalculia and about the people who is suffering from the dyscalculia and also mentioned about the problems that are facing by the dyscalculic people in different fields of areas in their daily life. Coming to this case of Dyscalculia it is defined as the mathematical and arithmetical inability while coming to the brief description it is named as Number blindness. Here in this project we focussed only on arithmetical addition and briefly describing problems facing by the dyscalculic people while doing mathematical addition and counting of numbers. And secondly we are going to describe how does dyscalculia comes from and the reasons and explain the relationship between Dyslexia and Dyscalculia as there is a chance to acquire dyscalculia from dyslexia. The main aim of the project is to teach the mathematical addition rule to the People with Dyscalculia would struggle in doing arithmetical addition. Before starting to teach the mathematical addition rule to the dyscalculics I already studied briefly about the dyscalculia and how does it occur and what are the Types of dyscalculia that occurs to the dyslexic people and the deficits intended in dyscalculic people as they expressing while doing mathematical addition. Now a days Dyscalculia is the main problem that are affecting people up to some extent. But not as much this is the problem mainly occurs which is connected with Dyslexia. However one thing should remember that all the Dyslexics are not Dyscalculics although 40% of dyscalculia occurs from dyslexia. In this project to overcome Dyscalculia particularly in the arithmetical addition and to teach the mathematical addition to the dyscalculics I designed application software in Flash with visual graphical design with the help of a colourful Cuisenaire rods. By studying about the previous sources that are useful to teach the maths addition which were designed by some experts in dyscalculia studies such as Brian Butterworth and some other experts on dyscalculia the teaching designs like Phonological loop, Visio spatial sketch pad etc,. Hence by following some of that specific designs in my view and I designed an understanding design to teach mathematical addition rule to dyscalculia people. This includes brief understanding and attractive designs that can impress the dyscalculic and make them enthusiastically towards to the learning of mathematical addition from the basic adding to the high level digits adding that means starting from single digit adding to higher level adding. For this we need to train them on the Cuisenaire rods and the colours and values which was assigned to them and then we need to teach them first by running the application software automatically and I designed the whole process of addition in this software from the advanced stage to the stage of getting result. After that I am conducting a quiz to test their ability and grip on addition after teaching by using the designed application. I hope this design can help the dyscalculia to overcome arithmetical addition inability up to a greater extent. Introduction First of all before starting of my project this document reflects and introduce about the project from its advanced stage to the conclusion in a simple and briefly explanation on which concept that I am doing my project. I started my dissertation on a special concept of human disabilities which is known as Dyslexia and its further effects on human life prospectus. Especially this discuss about the defect on humankind that are suffering with mathematical and arithmetical difficulties known as Dyscalculia. The effect of dyscalculia mainly refers the lacking of mathematical skills and concepts such as addition, subtraction, multiplication and division. Dyscalculia is the major problem that is affecting the human life in our daily activities mainly focuses on inability of basic mathematical concepts of adding and counting of things which performs vulnerable and inefficient out coming result while doing calculations and normal counting in our daily life The main aim of the project is to help the people who are suffering from Dyscalculia and its deficits. To perform the activities that can help to understand the mathematical concepts and to overcome the deficits of dyscalculia that is affecting the people in their real life. The way of designing and the implementation of the project can be able to pave the way for finding the right solution to solve the problems of dyscalculic people with which they are suffering and to overcome their deficits with which are having individually and its total scope is to enhance the possible ways of teaching methods of addition particularly for the dyscalculic in an understanding and in a possible way which can be capable by the dyscalculic. The whole project is designed as user friendly and can be able to the dyscalculic people who are suffering with learning difficulties particularly in arithmetic addition that is adding of numbers starting from the adding of single digit to the higher level addition. In the advanced stage of the project we introduced the design with colourful Cuisenaire rods with attractive colours so by introducing attractive features into the design so that the dyscalculics can show their interest on learning addition very faster and can show the efficiency to get the output result correctly with satisfaction. The entire work of the project is based on teaching of mathematical addition in an understanding way to the dyscalculic people with learning difficulties in mathematical addition. Particularly in adding and counting of numbers according to the situations in their daily life. The possible steps in designing the project which is very useful to dyscalculic; The simple way of designing the project can be easily to understand by the dyscalculic people. Operation is user friendly to dyscalculics Introduction of special features can attract the dyscalculics towards the learning process. They can show their interest on mathematical addition and can learn easily by understanding. Back ground; Dyscalculia; What is Dyscalculia; Dyscalculia is mainly defined as difficulties with numbers it is identified as the difficulty in counting the numbers and things fast and fluently with lack of grasping power. Why the people with dyscalculia are different? Individuals with dyscalculia have specific difficulty with numbers, despite exhibits good results in other areas. They may have great difficulties with counting and adding the numbers. The example of an arithmetic addition2+4 or 4+2 Prices in the shops like tendering the money and taking the change correctly. Normal identification of numbers and what those represent, e.g. which is bigger, 2500 or 2770? Does 100+100 = approximately 200 or2000. Judging of numbers instantly for example seeing there are 5 glasses on the table normal people can count immediately and respond quickly where as the dyscalculic need to count them and to respond slowly. Phone numbers, seeing of dates , time etc,. It shows that people having dyscalculia has to struggle to achieve successful goals in the field of employment than having disability. Dyscalculia is the main learning problem that affecting many individuals and it is termed as the learning of mathematic disability by the disabled. It states that dyslexia is identified as the difficulties in reading written text fast and fluently with lack of grasping capacity. On the other hand dyscalculia refers the difficulties with handling and carrying out specific mathematical operations such as addition, multiplication, subtraction, division. Relation between dyslexia and dyscalculia: Here the relation between dyslexia and dyscalculia is very obvious. However, there are some points of overlap. There is a variant of dyscalculia that could be called as dyslexic dyscalculia. This problem involves primarily difficulties in reading which leads to mathematical problems for the people and these are the problems that arise with reading numerical symbols or difficulties with reading with multi-digit numerals so that 14 becomes 41. If the error happens like this in the reading of a task then obviously the solution becomes incorrect. On the other hand dyscalculia can be recognized in the lack of mathematics concern the ability to quickly retrieve numerical facts such as adding small digit numbers like 4+5=9 from the memory. There are several indirect similarities between difficulties with reading and mathematics. A poor working memory is one of the more obvious. Dyscalculia is defined as the mathematical problems caused by working memory or evident in the tasks that must be solved mentally, in the head. In the time of calculation the student may run into great difficulties keep various numbers in the memory. The other case is problem of remembering longer instructions and commands. May be they can remember a short what was supposed to be done. The rest is forgotten, because the information was never stored in the memory. The earlier researches shows that people with dyscalculia also have dyslexia most of the people with dyscalculia can have only mathematical difficulties. And they have a highly specific form of a learning difficulty and many are good in reading. Nowadays the occurrence of both dyslexia and dyscalculia at the same time is diagnosed as icd-10. The most common thing in dyscalculia is the difficulty with the number order. Difficulties involve understanding and use of mathematical operations and concepts. People of large proportions with dyscalculia display problems with following calculations to reach a correct solution. They easily lose their strategy and therefore run into difficulties with complex mathematics. Students with dyscalculia can be able to solve mathematical tasks but with in a average time frame they are unable to retrieve numerical facts from their vulnerable memory and must expend a lot of energy doing The word dyslexia comes and originated from the Greek word Dys means impaired and lexia is a word. Dyslexia ranges from easy to severe conditions. There exist various forms of this disease. Therefore there are different types of symptoms of this illness. The individual features of every type are specified for every human being separately. In general there is no such a typical type of dyslexia. Dyslexia refers to be a learning disability of the brain especially difficulties in reading or writing and spelling and it is the disability of neurological disability. Due to dyslexia the main drawback is that the people with dyslexia failed to remember the name of the things or to connect the name of the item with the definition. Recent surveys revealed that girls are less dyslexic than boys. There are two kinds of dyslexia Genetic Acquired Genetic transfers with the genes and the second one that is acquired occurs to brain damage in the left hemisphere that is responsible for language areas. Possible causes of dyslexia; Dyslexia is widely recognised as having a genetic component for example if a one kid of a pair of twins is dyslexic and the other twin is more likely to be dyslexic in the areas specially in language processing dyslexia links with brain differences. Possible causes of dyscalculia; It suggests by evidence that dyscalculia may have a genetic component. If there exists dyscalculia in one identical twin most possibly there is a chance of around 70% to become dyscalculic characteristics in the other twin. For non identical twins there is a less possibility of getting dyscalculia around 55% only. Research facts of Dyscalculia; Brian Butter worth an expert in dyscalculia research facts; Simply Brian butter worth done some research on a particular person who has dyscalculia and he is describing about the situation of the particular person and his name is Charles. Brian Butterworth met Charles when his (Charles) age was 30 years old Charles is a good professor in psychology and getting psychology degree is an achievement for Charles. But entries to the university in the first place even though he is best he failed to normal condition for entry into the maths GCSE. Charles is intelligent and very hard-working. But he is very poor in number skills that always have been a severe handicap and shopping is a constant embarrassment he doesnt understand the product prices and unable to grasp the idea of the total cost of the shopping basket. When he comes to the till, he has no idea about the money how much to tender and to get correct change. At that time immediately he use to add and multiply his fingers, and he is unable to do the two digit arithmetic problems such as 47-19. The real surprise thing that Butterworth found here about Charles is he couldnt tell that which is bigger or which is smaller in a numbers list which were given for suppose 9 or 5 and to find the difference suddenly he started to count his fingers to work in out. Charles is an example and this condition is known as dyscalculia and this mainly affects the ability of acquire the skills in mathematical and arithmetical skills. Dyscalculic learners may face the difficulties in understanding the basic and simple arithmetical concepts like adding of single digit numbers. For simple arithmetical concepts they may face severe anxiety and they struggle to understand what is obvious to all their friends and classmates. Dyscalculics even if they produce a correct answer or use a correct method they may do so mechanically and with lack of confidence. This captures what many dyscalculics like Charles feel about maths it is incomprehensible. Dyscalculia is not only a problem for the individuals but also it is one of the effect to the nation and for some especially as from the published report of the basic skills agency shows that poor math skills is a bigger handicap to getting a job by having that poor numeracy the employee will transport the wrong number of goods and fails in the money transactions such as receiving or paid out the money. And due to this poor efficiency in calculations affects the particular company. The current estimations suggest that about 5-6% of average to the superior intelligence children will have a real deficit in doing maths. Dyscalculia seems to be particularly found in dyslexics around 40% of the people who struggles with reading difficulties also having difficulties in learning maths and the remaining 60%have no problems than normal. It was found already that there is link between dyslexia and math learning difficulties although the latter can occur alone. It is worth noting that learning about numbers is different from learning to read in an important way. We are born with basic numerical abilities. Infants, even in the first week of life, are sensitive to changes in the number of things they are looking at. We know this because they will look longer at a display when we change the number of things, but often will not when we change one of the things but keep the same number. Babies also seem to be able to do very simple arithmetic. If the baby sees a doll place behind a screen, and then another doll placed behind it, it can be shown that the baby expects there to be two dolls (1 + 1) when the screen is removed. Babies look longer at things they dont expect, and will look longer at one doll or three dolls in this situation. So there is evidence of an innate capacity for numbers. One hypothesis to explain dyscalculia is a lack this innate capacity. However we dont have a specialised capacity in reading by birth. Reading is a complex skill made up of various brain systems set up automatically to do the other tasks like language recognising visual patterns, sequencing, and so on. And some of these used to learn maths in school and deficits in them may also affect learning in mathematics. What we need urgently is a way of diagnosing dyscalculia, and separating it from all the other causes of maths problems, including inappropriate teaching. Once we can identify these children reliably, we can begin systematic research on how best to help them. Charles was not diagnosed as dyscalculic until he came into our lab, and, like many other dyscalculics, felt himself first to be incredibly stupid for not being able to do what all his friends could do easily. This was not good for his self-esteem, of course. After that he came to realise that there was something wrong, but he was completely immersed in the dark as what it could be. Better for his self-esteem, but of little practical help. We dont know there are how many cases like Charles, but we are slowly reaching there. Difference between dyscalculic and ordinary people in arithmetic calculations; Ordinary people; For suppose if there is a four dots or four things on a screener the ordinary people(without dyslexia) can identify the things which is on the screener and they can give instant reply with respect to the situation. So therefore the normal people can react very quickly and they can respond very quickly comparing to the dyslexic people. The grasping capacity is very good in the normal people. Dyslexic people (Dyscalculia); While coming to the dyslexic who suffers from dyscalculia cannot give the quick responses with respect to the situations like ordinary people. So to overcome this type of situations in dyslexic people we need to train them in such a way so that they can give their responses slowly in a particular way as the trainer and the people can understand a bit. In order to train the dyslexic people to overcome the problem of arithmetical difficulties we should introduce some specific designs which is very user friendly and comfortable to hold by the dyslexic people particularly who is suffering with dyscalculia. And the designing aspects should be able to overcome their deficits. Mathematical grasping capacity; This describes the mathematical ability of the dyslexic people and their mental ability of doing the mathematical calculations mainly the people who is suffering with dyscalculia. For suppose if we introduce any four kinds of things in front of the dyslexic people they cannot give the quick response by counting the things so they will take time to count one by one and starts 1,2,3,4 and will give the response very slowly as 1+1+1+1=4 So people suffering with dyscalculia unable to do bigger calculations like adding numbers which is in big units like 234+432 so therefore we need to train them in such a way from the earlier stages of addition like adding single digits 1+2=3 so we need to begin from the earlier stages of addition. And after that by observing their progress we should train them to the further stages like adding double digits and then 100s and 1000s and so on. Its very important to train them with respect their progress by observing their progress we can easily calculate their mental ability of doing the calculations and thereby we can implement the teaching techniques which can very easily and comfortable to the dyslexic people. So by introducing the new and comfortable techniques of teaching the people (dyslexic) can easily do the mathematical addition. Teaching of mathematical addition rule; To teach the Mathematical addition rule to the dyscalculia we need to train them in specific way. The mathematical symbol (+) is to be fix in their mind strongly. And to make them to learn its importance and its rule. Types and sub-types of dyscalculia; Developmental dyscalculia; It is referred as mathematical and arithmetical dysfunction in individuals with normal mental functioning, that results and occurrences of brain anomalies at the time of prenatal development. Discrepancy occurs between the mean mental age and math age there exists a neat and clear retardation in mathematical development. Problems encountered by pupils with dyscalculia; The will recognised and the observable things that generally we can find in the peoples with Dyscalculia are the learning and remembering difficulties in mathematical concepts like addition, subtraction, multiplication etc,. In this project especially we are focussing on the mathematical addition particularly and the difficulties which are the dyscalculics are facing in their real life in the fields of employment and in the living society and we had discussed the problems with dyscalcilia which they are facing in all the areas of everyday life prospectus. Leaving that matter about what we are talking above and coming to the point of the problems that are encountered by people about the problems of dyscalculia. The well recognised problems of dyscalculics; Difficulty in learning and remembering of mathematical concepts such as used in our daily life in our activities Ex; Addition In the time of interviews with teachers. Difficulty in remembering even up to the number bonds to 10 is the worst problem that pupils struggling with maths were up against. Difficulty in executing mathematics calculations procedures. In 1984 Russell and Ginsburg found a dyscalculic group of people struggling on both written calculation and arithmetical fact retrieval. In 1992 Yamashita and Aram found dissociation absence between arithmetical fact ability and procedural ability with numerical processing difficulties in pupil. In 1993 Geary suggests that procedural problems are likely to improve with experience and also suggests the retrieval difficulties are less likely to do so. And he proposes that the emerging of procedural problems is due to lack of understanding concepts. Problems of retrieval difficulties are the result of general semantic memory dysfunction. In 1999 Ostad has noted that the dyscalculia people use fewer procedures and often apply their smaller repertoire in the situations where they are not appropriate. Even the counting of simple and single digits were shown to be vulnerable in dyscalculic people Geary, Bow-Thomas and Yao in 1992 found that dyscalculic people are less likely to detect the counting errors than normal people. However, all these deficits occur by the lacking of the conceptual understanding of the basic ideas of the numerosity and arithmetical concepts. Good memory for arithmetical facts depends and can be able to convert and organise them into meaningful patterns. And coming to the poor memory it can arise when the fact make little sense to the people. The known information from the dyscalculic people was heard badly by themselves is that they cant remember what the teacher is saying about the mathematics. Even some simple tasks like counting and adding single digit numbers dyscalculic people show a kind of rigidity. Geary, Bow-Thomas and Yao in 1992 found that counting should do perfectly from left to right without skipping around. From all these we can find right thing from all these authors observations and description we should note very important thing here is that these people ( Dyscalculics) cant understand the conceptual things in mathematics. Coming to the normal people can understand quickly that objects can count in any order. Underlying processing deficits; It is one kind of the approach to study about developmental dyscalculia and this involves trying to see it as a consequence of cognitive deficits based on the understanding of the mathematical and arithmetic concepts. And all of these proposals have included. Weak phonetic representations An advantage of this approach is there is a possibility of finding exactly the co-morbidity between dyscalculia and dyslexia, as we can find that dyslexics known to suffer from these conditions. Geary and colleagues suggested that semantic memory difficulties are the main cause for the problems of developmental dyscalculics which they are experiencing in number facts. As well as the co-morbid reading difficulties frequently found with dyscalculia. It shows the evidence particularly the argument is based that dyscalculic people have the difficulties in learning and remembering arithmetic facts that this deficit occur by lacking of understanding of math concepts. Empirical evidence for a general semantic deficit in dyscalculic people is thin. In 2002 temple and Sherwood recognises that a group of dyscalculic people are suffering with arithmetical difficulties were slower at colour and object naming than controls. This comes to know their speed and accessibility is very low. However the authors argued a casual relationship between the arithmetical ability and the speed of access It shows that People may be slower especially dyscalculics while the time of processing information in 1997 Jordan and Montana showed that the dyscalculic people can do the mathematical calculation on being unlimited time but they cant perform like the normal people whereas normal people can do significantly in case of time limit In 1999 Mclean and Hitch compared the dyscalculia between the younger and the older people and found that the older people is performing the accuracy than the younger people in the time of solving the arithmetical and mathematical calculation. It reveals that the performance of the older people acquired due to the experienced things which they faced before in their daily life which is continuing from their early starting from the childhood. In 1989 Siegel and Ryan found that people with dyscalculia showing their weak performance only in the fields of arithmetic and mathematical fields such as counting and adding of numerical things but not in the fields of non-numeric. On the other hand that found the spatial working memory and some aspects of central executive function were poorer in the dyscalculic people. Moreover, in2002 temple and Sherwood tested dyscalculic people and controls on forward and backward digit span, word span and corsi blocks (a non-verbal test of working memory). This study reveals there is no difference between groups and no correlation between the working memory measures and arithmetic ability measures. SUBTYPING DYSCALCULIA; The study of developmental dyscalculia has evolved to its new division of approaching to identify dyscalculic subtypes according to the presence or absence of other disorders, in an attempt to highlight the underlying processes that are contributing to the co-morbidity of the disorders. One of the things that we should note is the important correlate of mathematic disability is reading disability. It is estimated that at about 40% who is suffering from the dyslexics also have dyscalculic problems with learning difficulties in mathematics. The one of the most common ways of dyscalculic sub typing is according to whether or not they have a co-morbid reading disability. The conditions that have been associated with dyscalculia are stated below. attention deficit hyperactivity disorder (ADHD) (Badian, 1983;Rosenberg, 1989; Shalev, Manor and Gross-Tsur, 1997); poor hand–eye co-ordination (Siegel and Feldman, 1983); poor memory for non-verbal material (Fletcher, 1985); poor social skills (Rourke, 1989) In 1993 shalev and gross-tsur examined a group of seven people with developmental dyscalculia and not responding to intervention. All the group of seven people were suffering from additional neurological conditions, up to dyslexia starting from petit mal seizures and is mentioned as ADHD. DEFICITS OF DYSCALCULIA; Phonological processing in dyslexia In the main case studies of dyslexia phonological processing takes an important role compare to other disorders like sensor motor disorder. This survey was again confirmed by the recent survey shows the 100 percent of samples for dyslexia was affected. This survey had an argument is that theory of phonological processing was the tautology compare it as an explanation. That phonology and the reading of the dyslexia are the two sides of the same coin. That means this awareness was explained more by the reading skill. If the phonological deficit was Leeds to a problem along with the phoneme awareness. The main problems of dyslexics of the phonological problems are rapid naming and the verbal short term memory. This is related to reading. In this we can understand that phonological awareness and the rapid naming deficits are the relatively independent. Phonology does not reduce to the awareness of naming and memory. Some of the aspects for the phonology dyslexics remain to be investigated. ADHD: Attention-Deficit/Hyperactivity Disorder is presented in the childrens. This is to cause the neurodevelopment disorder. This also most studied part for the people. ADHD public health dimensions are received relatively little interest. According to the survey of epidemiologic the distribution of ADHD around the population by the age, sex, and race and according to the socio economic status. The origins of the risk factors are preventable. In this scenario we are going to discuss few of the independent concepts those having independent case of definition for ADHD. Summarizing the epidemiologic data regarding prevalence. In the literature key gaps were identified and ended with few suggestions for the epidemiogic research. Magnocellular deficit Due to the perceptual deficits of the dyslexia reliability is the one of the problem. With this performance Macarthur proposed the theory. This is one of the heterogeneity dyslexic samples. Mainly the magnocellular is made link with the cerebella dysfunction. These measures are become very hard to incorporate into the routine assessment of the reading. Cerebella hypothesis applied to the dyslexia. Those agree the phenotype. It is the research of phenotypes. With that we can clearly as showed the symptom complex. Auditory deficits; Auditory deficit is defined as the deficiency in one or more behavioural phenomena listed below for suppose deficit in. Auditory discrimination Auditory performance with degraded signals Auditory performance with competing acoustic signals Sound localization and lateralization These mechanisms lead to nonverbal as well as verbal signals and may affect many areas of function. Including speech and language and auditory deficit can delay the maturation in the development of the important auditory centres within the brain. The deficits are related to maturity differences in the developing stages of the brain. And usually auditory deficits represents more static types of problems and these deficits can be caused by tumours, trauma, degenerative disorders, viral infections, surgical compromise, lead poisoning, lack of oxygen auditory deprivation, and so forth. Prevalence of auditory deficits is estimated to be between 2 and 3% and we can observe more in males is often co-exists with other disabilities. And they include speech and language disorders or delays, learning disabilities or dyslexia, attention deficit disorders with or without hyperactivity. Dieted by the reminder of the hypothesis. Learning memory deficits in children; Children having learning disabilities such as dyslexia and dyscalculia. These are tending to may experience the core skills of the reading, writing and the arithmetic operations. These problems are raised at the first days of school. Even if we pass an instruction it needs to

Comparing Rugby and Football :: Compare Contrast Comparison

Comparing Rugby and Football The thick, broad-shouldered athlete breathes heavily and grunts with each step as he and his teammates push mightily against the opposition. His arms are locked over his teammates' shoulders, all of their heads down. The two teams are pushing against each other like two moose fighting over territory. He looks down to see the ball, sitting just in front of his feet. If he could just hook it with his foot and heave it to his teammate behind him†¦ This is what every player in a scrum is thinking while they fight each other for possession. Rugby is the true sport of men, because you wear no pads, and it is even more violent than football; however, football requires that you wear pads, thus being the true sport of want-to-be men. The rules of these similar yet vastly different games are extremely complex, so only the basics are necessary to distinguish the better sport. In football, the primary rule is that you must advance the ball forward by throwing it or running with it. Once a player with the ball is downed, the entire team lines up again, and the ball is snapped to the quarterback. The short pause in-between each down may not seem significant, but it definitely takes its toll on the excitement. In rugby, however, the primary rule is that you can only advance the ball by running with, kicking, or passing it. With passing, though, you can only pass the ball backwards or directly to your side, never forward. Like football, you score by running the ball into the endzone or by kicking it through the uprights. Also, you must touch the ball to the ground for it to count, and it is worth five points. When kicking, the ball can be kicked from anywhere spontaneously. If it passes through the uprights, it is worth three points, as in football. The equipment for the two sports is widely different, with football requiring much more. In football, players must wear a large set of pads, covering most of their body, and a masked helmet. The ball is made up of an inflated rubber bladder, surrounded by stitched leather, and it appears ellipsoidal in shape. Most players now wear cleated or spiked shoes, but flat-soles are often worn for artificial turf surfaces. But rugby, being the true sport of men, uses no pads of helmets.

Cross-Cultural Communication Game

Introduction Cross cultural communication becomes an essential element in the organization because of the increase and interest in globalization and the diversity in the work environments. The employees in the company will be separated into diverse groups and sub-groups, those groups will have their own verbal and non-verbal communication styles which may create disagreement or conflict within the organization, especially in the multinational company.Objectives of the game The major goals of the games are: I) Introducing to a group about communication pattern change when there are cultural differences, II) Understanding both cultural behaviors and communication patterns can impact negotiation between two groups. Equipment and materials required In terms of resources needed, an overhead projector, a computer and blackboard are needed during the game. Also, paper and gifts would be prepared too. Procedure 1.Divide the students into two groups which are Alpha group and Beta group, they will have a paper showing their own characteristics in the game 2. Choose two leaders in Alpha group and two leaders in Beta group 3. Solve the distribution of reward problem in their own group first. The first round discussion will be recorded by the game holder. 4. After 10 minutes, half of the members in each group will exchange to another group, they will discuss the problem again.They will have cross cultural communication through the group exchanging. The discussion will be recorded by the game holder. 5. Based on the above discussion, each group requires to reporting the results of the negotiation. Time allocation Our management game is â€Å"Alpha-Beta partnership†. Firstly, 3-5 minutes would be allocated on giving students the background information and objectives of the game, and separating them into 2 groups. Then 22 minutes would be the management game session.Lastly, the rest of time would be used to be a debriefing session and a simple conclusion on the manageme nt game. Activities| Time spend| Introduction| 3 minutes| Dividing into groups| 2 minutes| Game on Alpha-Beta partnership| 22 minutes(2 minutes for them to exchange)| Conclusion and feedback| 10 minutes| Reference: http://books. google. com. hk/books? id=49L0vgdcdLAC&pg=PA11&hl=zh-CN&source=gbs_toc_r&cad=4#v=onepage&q&f=false

Help Me to Help Myself

The phrase ‘Help me to help myself’ portrays the child’s sensitivity to do things him/herself with the help of his/her carers, peers and people with whom s/he comes in contact with. Maria Montessori was the one to first recognize this need of the child and went further to research on it. â€Å"As a rule, however, we do not respect children. We try to force them to follow us without regard to their special needs. We are overbearing with them, and above all, rude; and then we expect them to be submissive and well-behaved, knowing all the time how strong is their instinct of imitation and how touching their faith in and admiration of us.They will imitate us in any case. Let us treat them, therefore, with all the kindness, which we would wish to help to develop in them†. -(Montessori, 1965) Due to time and social constraints, we adults often ignore our children’s individuality and abilities. We need to help the child to help him/herself to become more in dependent. A child learns from the time s/he is born. The more the experiences the more the child learns and it is the adult’s duty to provide the means for these experiences. The child's real challenge for independence starts at about age of one, when s/he starts walking.The child will just walk up and down with no motive in his/her mind but to just master the new achievement. The primary carer helps the child just by providing a safer and stimulating environment for him/her without any interference. â€Å"The greater the effort, the greater is the child's pleasure and worse is any interruption†¦Ã¢â‚¬ ¦Ã¢â‚¬ ¦. Things done spontaneously by children are done for the formation of man. The nurse must stay near them and watch them, be ready to help them if necessary†. Maria Montessori (1946, pg.  117-118)Freddie is in a setting where it has been set up, keeping in mind the needs of the child. He is free to choose any activity he likes and he knows that he has to ke ep the activity, which he was playing with, back in the right place. He gets the help when needed. Freedom brings out independence. The more the child is allowed to choose what s/he desires to do the more the child becomes confident and interested in doing things him/her self. It brings in the child self esteem, sense of belonging to the society and the child will be motivated to behave in an acceptable manner.The teacher is close to Freddie so that she can help him if he needs it and observes him too without interfering and respecting his desire to do the button frame. â€Å" It is by helping the child the help himself we render him that help which will make him independent. To teach the child to brush his hair, we must give him a small mirror, a small comb and a suitable brush. If we want the child to was his hands we must provide him with things fit for his size. He will rejoice being able to do things. He will do what he does with enthusiasm. Thus the child is introduced into a form of life, which is necessary for him†.  (Maria Montessori, 1989 pg. 10)Montessori believed that education starts from birth. She believed that a child develops differently at each stage of his/her life. The first developmental stage being The absorbent mind(0-6 years), the second Childhood(6-12 years) and the third Adolescence(12-18 years). During the first three years, the child’s actions are guided by an inner drive, horme, where the child learns unconsciously through his/her actions. The adult helps the child by providing an environment, which is safe, stimulating so that the child learns through exploration, manipulation and discovery.The adult should stay close to the child and observe rather than interfering or restricting a child to one place. As the child grows, the child’s actions are more of intentional/conscious mind. Horme is replaced by ‘will’. Freddie’s will is reflected when he uses the button frame. As he was given the f reedom to choose the activity and use it, Freddie displays the characteristics of a ‘normalised child’. Freddie is responsible as he has put away the puzzle in the right place and respects others as he waits for Jonnie to finish the button frame before he can use it.Montessori not only suggested that freedom forms the basis of independence, but also encouraged freedom with limitations. The ground rules in a nursery setting lay down these limitations. The child is expected to behave in a manner that shows respect to his/her peers, and to the environment. Freddie is given the freedom to chose an activity but he also knows the ground rules, so he waits for his turn, returns the activity, tucks his chair in. These actions not only show his social development but also his sensitivity to order.There is consistency and predictability in his environment. Freddie knows that he has a teacher to ask for help when he needs it. He knows where he can find the activity he wants to do. He also knows what is expected from him. The teacher’s non-interference in Freddie’s choice of the button frame makes him feel trusted to be able to do things for himself. Freedom of movement and physical activity is an important aspect in a growing child. A child becomes independent with exploration and exploration requires movement. Miss J takes Freddie out in the garden when he desires to do so.He waits patiently for his other two friends to get ready. The teacher plays an important role in helping the child. According to M. Montessori(1946, pg. 34), â€Å"The teacher must be a servant to nature, show respect and care, and be humble. Her plan must be to nurture life, which is a force, a force full of wisdom and power†. The teacher must be facilitator and show respect to all children. She should put in efforts to provide the children with an environment that is motivating, stimulating to them. The teacher should be a silent observer and help the child only wh en the child needs it.In Freddie’s case the teacher is a silent observer and helps Freddie when he wants to and also allows easy access to the garden. Montessori emphasised that a favourable environment helps the child learn independently at his/her own pace. A favourable environment meant that the physical environment of the setting should be such that the child can see things at her/his level that acts as help in the development of the child not a hindrance. Montessori’s idea of favourable environment was to provide children with child sized furniture, homely, beautiful, neat, tidy and organised environment.If a child is given a chair his/her size which can be moved freely by him/her, s/he is motivated to do more activities rather than sitting on a stationary chair. Freddie could pick up the button frame on his own as it was kept in a cupboard his size. This nurtures independence. According to Standing (1984, p. 265) â€Å"What Montessori has done is this: realising the peculiarly absorbent nature of the child’s mind, she has prepared for him a special environment; and then, placing the child within it, has given him freedom to live in it, absorbing what he finds there.†Montessori designed materials after observing a child’s developmental needs. She also designed some activities of everyday living that boost a child’s independence and bring in him/her a sense of belonging to the society s/he lives in. Freddie is doing the button frame that helps him to be more independent while dressing himself up. The button frame is only one of the many activities of everyday living designed by M. Montessori that helps the child to become more independent. These activities helped children to be able to do things for themselves and also helped them to be sociable, considerate and respect others.â€Å"Development is the construction of personality, reached by effort and one’s own experiences; it is the long road which every c hild must travel to attain maturity†-Montessori, 2001a, p 187. In order for a child to develop, s/he must be provided with opportunities. These opportunities can be provided to child by creating an environment that attracts and motivates the child. It is necessary to understand that each child learns at his/her own pace. The favourable environment offers the child freedom of movement, freedom to do, freedom to do nothing, predictability, consistency.This freedom comes with limitations so that a child knows that s/he is responsible for his/her own actions. Self-discipline and obedience are the results of such freedom with limitations. Montessori believed that the child works to construct a man. And in this construction, the child requires a lot of support from his/her environment. The child needs guidance and not a person who will do things for the child. After a lot of observations on children and a research on those observations, Montessori has tried to create a system that i s the most favourable for a child’s development, both physical and mental.She has truly supported the child’s sentence- â€Å"help me to help myself†. She designed materials for children which she thought would develop the child’s personality as a whole. Both physical and mental activities are equally important. A child has to be given the freedom to choose what s/he wants to do rather than being directed to do a specific thing. She respected the child’s needs and believed in letting the children to be. It is very easy for us to do things for the child not realising that this acts as a hindrance in a child’s development.