The Use Of Technology To Improve Mathematics Education Essay

The Use Of Technology To Improve Mathematics Education Essay This project is based on the use of technology to improve mathematics in secondary schools of Mauritius. It discusses about the various theories associated in the application of new means of communication and teaching-learning mathematics, as well as the available technological tools and their applications. After much research work, this project has been successfully completed and applied on a sample of Lower six students. PURPOSE OF THE STUDY Mathematics is a very important subject at the primary and secondary educational level. The subject finds its own place in all sciences, accountability, economics and technology. To be able to understand concepts or application of statistics in the latter subjects, a good foundation in mathematics is highly recommended. Also, after completion of secondary education, a student is required to give evidence of a good analytical and numeracy skill through his/her mathematics results so as to qualify for a seat for most of the field of the tertiary education locally or overseas. Consequently, teachers and the school administration should leave no stone unturned in creating an efficient teaching-learning environment and incentives for their students. THE PROBLEM Mathematics is a subject which has been regarded as being very difficult by many students and parents. This stereotype way of thinking has acted as a demotivating factor and has lead to a downfall in the performance of students in mathematics, especially in upper secondary classes (Form 4 Upper 6). Many students take the subject as a burden since it is a compulsory subject to their study stream. Hence, Mathematics, including Additional Mathematics, is neglected resulting in homework undone or uncompleted and poor performance in assessments and exams. JUSTIFICATION OF THE STUDY At the start of every academic year, lots of problem are faced by teachers and school administration to convince students and explain to them the importance of mathematics in their subject combination for Lower Six. Also, after the first few weeks of following Additional Mathematics classes, many students wish to drop the subject, but since the subject is mandatory for science, economics and technology streams, students find no alternative. This situation arises because students are being exposed to more abstract mathematics than the basic. As a solution to this mathematics crisis, efforts have to be done to develop the educational psychology and mathematical pedagogy. Technology is the tools or the ways used by individuals to improve the standard of living or comfort of living in their civilization. The youngsters of this era are highly and easily fascinated by technology. In other words, it can be said that it is the fashion of technology; consequently, technology can be more easily used as a teaching-learning tools to achieve educational goals. SIGNIFICANCE OF THE STUDY The use of technology in teaching mathematics will attract students towards liking the subject, thus motivating them to work harder, get a clearer understanding of concepts, develop their reflex, logical thinking and problem-solving skills, and improve their performance as a whole in the subject. LIMITATION OF THE STUDY Despite all the theories and technological tools existing, it is very depressing that due to limiting resources, materials and finance in our educational system, it is very difficult to apply all instantaneously. Also, though technology is reaching the society very fast, there are still families who cannot afford to provide their children with all technological facilities. Therefore, children from such families would feel very underprivileged if technology is fully applied to teaching and learning. For instance, these children will be deprived if any computer-based or internet-based homework is given. SUMMARY OF THE CHAPTERS (Yet to be written) CHAPTE TWO LITERATURE REVIEW PSYCHOLOGY AND PEDAGOGY IN MATHEMATICS EDUCATION Piaget and the learning of Mathematics Jean Piaget (1896 1980) was a Swiss developmental psychologist and philosopher known for his epistemological studies with children. He placed great importance on the education of children. Piagets theory is a theory of intellectual development rather than a theory of learning, teaching, instruction or curriculum in general or with respect to mathematics in particular. But much writing and many investigations have been directed toward hypothesized implications of Piagets theory for mathematics learning, teaching and instruction, for the nature and sequence of curricular content, and for classroom structure, organization and management. Also, concerns have been expressed regarding ways in which Piagets theory has been applied to different aspects of education and mathematics. Very often it has been suggested that certain Piagetian tasks (conservation tasks, for instance) provide a good basis for determining students willingness for learning one aspect or another of school mathematics. But Hiebert and Carpenter (1982) have indicated that the available research evidence suggests that Piagetian tasks are not useful willingness measures. The hypothesis was that Piagetian tasks can be used to identify children who would be unable to benefit from instruction in mathematics, but all the available evidence clearly suggested that the hypothesis was null. Instead, many children who fail Piagetian tasks are able to learn mathematical concepts and skills. Kirby and Biggs (1980) indicated that Cognition returned to psychology in the 1960s and flourished in the 1970s, permeating most areas of psychology. Its metaphor, information processing, became dominant in that discipline. More directly to the point, Groen and Kieran (1983) pointed out that A few years ago, research on childrens mathematics was dominated by Piaget. To many in the field, the task was to extend Piagets theory or reinterpret it. Information-processing theory, broadly conceived, has replaced the Piagetian framework as a broad explanatory model. The significance of information-processing theory in cognitive development has grown concurrently with a retreat from the Piagetian framework. Within the present-day context of cognitive science, emphasis is placed upon understanding and comprehension. The learning of mathematics and research associated with such learning is more and more commonly being described or explained in relation to a system that includes provision for the intake of information, for its compilation within a working memory, and for interaction with other information stored within and retrieved from a long-term memory. Latest research associated with the learning of mathematics is much more likely to focus upon individuals than upon groups. It looks beyond observable performance related to behavioral objectives for its data base. Romberg and Carpenter (in press) have indicated that internal cognitive processes are acknowledged. Rational task analysis, which is based on a logical analysis by experts, has evolved to empirical task analysis, which focuses on what children actually do when they solve mathematics problems. Some of this doing may be observable in a students explicit actions, but much of the doing may be not only terms of a students observable but self-reportable thinking. The term metacognition refers to a persons awareness of and sensitivity to her or his own thought processes, and includes the ability to monitor and control such processes to some degree. There is growing evidence that learning associated with problem solving is facilitated or enhanced by a students increased awareness of metacognitive aspects of the problem-solving process. Also, there is evidence that some of the differences between expert and novice problem solvers may be attributed to differences in metacognitive skills. Romberg and Carpenter (in press) believe that We currently know a great deal more about how children learn mathematics than we know about how to apply this knowledge to mathematics instruction. Research is clearly needed to explore how knowledge of childrens learning of mathematics can be applied to the design of instruction. Furthermore, Although the emphasis in research on learning has changed dramatically in the last 15 years, the connection between theories of instruction and theories of learning remains an issue. Cognitive Guided Instruction Cognitively Guided Instruction is a professional development program based on an integrated program of research on the development of students mathematical thinking; instruction that influences that development; teachers knowledge and beliefs that influence their instructional practice; the way that teachers knowledge, beliefs, and practices are influenced by their understanding of students mathematical thinking. CGI is an approach to teaching mathematics rather than a curriculum program. At the core of this approach is the practice of listening to childrens mathematical thinking and using it as a basis for instruction. Research based frameworks of childrens thinking in the domains of addition and subtraction, multiplication and division, base-ten concepts, multi-digit operations, algebra, geometry and fractions provide guidance to teachers about listening to their students. Case studies of teachers using CGI have shown the most accomplished teachers use a variety of practices to extend childrens mathematical thinking. It is a belief of CGI that there is no one way to implement the approach and that teachers professional judgment is central to making decisions about how to use information about childrens thinking. The research foundation on childrens mathematical thinking upon which CGI is based shows that children are able to solve problems without direct instruction by drawing upon informal knowledge of everyday situations. For example, a study of kindergarten children (Carpenter, et al., 1993) showed that young children can solve problems involving what are normally considered advanced mathematics such as multiplication, division, and multistep problems, by using direct modeling. Direct modeling is an approach to problem solving in which the child, in the absence of more sophisticated knowledge of mathematics, constructs a solution to a story problem by modeling the action or structure. The motivation for learning Another crucial assumption regarding the nature of the learner concerns the level and source of motivation for learning. According to Von Glasersfeld (1989) sustaining motivation to learn is strongly dependent on the learners confidence in his or her potential for learning. These feelings of competence and belief in potential to solve new problems are derived from first-hand experience of mastery of problems in the past and are much more powerful than any external acknowledgment and motivation. This links up with Vygotskys zone of proximal development, where learners are challenged within close proximity to their current level of development. By experiencing the successful completion of challenging tasks, learners gain confidence and motivation to embark on more complex challenges. EDUCATIONAL TECHNOLOGY The term educational technology is often associated with, and includes, instructional theory and learning theory. Educational technology, also known as e-learning, instructional technology and learning technology, is the use of technology to support the learning process. It is an innovative way to design, deliver, facilitate, and manage instruction for learners of all ages, whether it is face-to-face in a classroom, online, or a combination of methods. While instructional technology covers the processes and systems of learning and instruction, educational technology includes other systems used in the process of developing human capability. It includes, but is not limited to, software, hardware, as well as internet applications and activities. Although technology is widely used in the administration, management of education and in research, educational technology is only concerned with the impact of technology on the learning process. In other words, technology is used as a tool or su pport to deliver learning materials, to facilitate communication and to provide assessment and feedback. In this present information age, the demand for knowledge is growing at a very fast rate leading to the emergence of e-learning at a much higher pace. Some of the various types of technologies which can be used in todays traditional classrooms are: Computer With a computer in the classroom, a teacher would be able to demonstrate a new lesson, present new material, illustrate how to use new programs, and show new websites. Class website In todays society, children know how to use the computer and navigate their way through a website. Therefore, a class web page is an easy way to display students work. Once a web page is designed, the teacher can post homework assignments or other student works. Class blogs and wikis Blogs allow students to maintain a running dialogue, such as a journal, thoughts, ideas, and assignments. They also provide for student comment and reflection. Wikis are more group focused to allow multiple members of the group to edit a single document and create a truly collaborative and carefully edited finished product. Wireless classroom microphones Noisy classrooms are a daily occurrence, and with the help of microphones, students are able to hear their teachers more clearly. Children learn better when they hear the teacher clearly. The benefit for teachers is that they no longer lose their voices at the end of the day. Mobile devices Mobile devices such as clickers or smartphone can be used to enhance the experience in the classroom by providing the possibility for professors to get feedback. SmartBoards An interactive whiteboard provides touch control of computer applications. These enhance the experience in the classroom by showing anything that can be on a computer screen. This not only aids in visual learning, but it is also interactive, that is, students can draw, write, or manipulate images on the SmartBoard. Online media Streamed video websites can be utilized to enhance a classroom lesson, for instance, United Streaming, Teacher Tube, etc. Podcasts Podcasting is a relatively new invention that allows anybody to publish files to the Internet where individuals can subscribe and receive new files from people by a subscription. The primary benefit of podcasting for educators is quite simple. It enables teachers to reach students through a medium that is both the new style of todays youngsters, as well as a part of their daily lives. For a technology that only requires a computer, microphone and internet connection, podcasting has the capacity of advancing a students education beyond the classroom. When students listen to the podcasts of other students as well as their own, they can quickly demonstrate their capacities to identify and define quality and develop their creativity. This can be a great tool for learning and developing literacy inside and outside the classroom. Podcasting can help sharpen students vocabulary, writing, editing, public speaking, and presentation skills. Students will also learn skills that will be valuable in the working world, such as communication, time management, and problem-solving. There are many other tools being utilized depending on the local school board and funds available. These may include digital cameras, video cameras, document cameras, or LCD projectors. EDUCATIONAL LEADERSHIP Educational leadership, also known as school leadership, is the process of enlisting and guiding the talents and energies of teachers, pupils, and parents toward achieving common educational aims. Educational leadership came into attention in the late 20th century since demands were made on schools for higher levels of pupil achievement, and schools were expected to improve and reform. These expectations were accompanied by calls for accountability at the school level. The concept of leadership was favored because it conveys dynamism and proactivity. The school head is commonly thought to be the school leader. However, school leadership may include other persons, such as members of a formal leadership team and other persons who contribute toward the aims of the school. CHAPTER THREE RESEARCH AND METHODOLOGY THE MAURITIAN EDUCATIONAL SYSTEM BRIEF HISTORY The education system in Mauritius, prototyped after the British model, has improved greatly since independence. After the country became independent in 1968, education became one of the main preoccupations of the Mauritian Government to meet the new challenges awaiting the country. New dimensions have been added to education, which have gradually democratized the whole system. The government made an effort to provide adequate funding for education, occasionally straining tight budgets. Considerable investment of resources, both human and material, has been put into the Education sector and impressive progress has been achieved in terms of free and universal education. Since 1976, education has been free for all and from the year 1991, education has become compulsory for both boys and girls. As from the year 2005, with the introduction of 11-year schooling, education has been free at all levels and compulsory for all up to the age of 16. STRUCTURE From Primary school onwards, education has been structured in a 6-5-2 system, whereby a child follows a minimum of 6 years free and compulsory Primary Schooling leading to a Certificate of Primary Education (CPE). This is followed by a minimum of 5 years Secondary Schooling which is free and, compulsory until the age of 16. This 5 years schooling leads the pupil to a School Certificate (SC) or General Certificate of Education (GCE) Ordinary Level, which henceforth enables him to pursue another 2 years schooling leading to a Higher School Certificate Advanced Level (HSC), which is the key towards Tertiary Education, either locally or overseas. Students who fail to attain a CPE are admitted to pre-vocational schools set up specially by the government to enable them to learn only basic subjects such as Mathematics, English and French, and some skilled works such as plumbing, electrical, handicrafts, art and painting, agriculture, etc. MASTER PLANS Today the education sector is being marked by a series of reforms based on innovation and creativity from pre-primary to tertiary level. The reforms are aligned on developments worldwide and they focus on empowering the Mauritian child to face the challenges of the new millennium and to use information and technological tools available. One of the main components of the reforms is the National Curriculum Framework for primary and secondary education. It brings about an all-around development of the individual, hence allowing him to lead a balanced, active and productive lifestyle together with an understanding of the biological, physical and technological world. Education would also make the child conscious of the notions of equity and social justice. As concerns secondary and tertiary education, innovations brought are mainly designed to enable schools and institutions to respond effectively to local, national and international priorities. Further, the new reforms 2010 aim to meet individual learning needs of all students, provide a strong foundation for lifelong learning and instill in all learners the skill they need to adapt to an ever-changing world. The curriculum framework for secondary education is based on the need to engage students in meaningful and integrated learning experiences. Sustainable development, citizenship, developing and maintaining a culture of peace and coping with stress are elements that will cut across the learning process. The curriculum base programme at the secondary level has been broadened with emphasis on the teaching of science and technology to those not intending to take science as their field of study in higher classes. General Science will become compulsory till Form V for students not opting for a pure science subject in view of the increasingly important role of science. Changes at the secondary level also comprise the vocationalization of the curriculum through the introduction of new subjects like Travel and Tourism, Physical Education, Marine Science and Environmental Management and the pedagogy will be reinforced by the use of ICT and multimedia. The inclusion of extra and co-curricular activities for all in secondary schools is also proposed by the Ministry of Education, Culture and Human Resources. Thus students will have activity time during which they can choose from a range of co-curricular activities. These activities include arts and crafts, computing, debating, drama, dance, music, singing and a wide range of physical activities. Students at the end of Form III will be initially assessed at national level in literacy in English and French, Numeracy, ICT and Social Studies, leading to a National Certificate of Achievement. This certificate will provide a statement of the level achieved by each student in these core competencies. The new secondary education curriculum has been developed by keeping in view the following key characteristics: Holistic Flexible Contextually relevant Promoting global awareness Integrated with other disciplines Acceptable to the community Thematic / Spiral in approach Fair to the learner Despite the fact that major innovations have been introduced into the system, there are still a number of challenges that need to be faced and overcome as a complement to the reforms undertaken. Today, the major challenge is the reorganization of the secondary education to ensure the fostering and development of the skills and knowledge required for socio-economic growth. TECHNOLOGY DEVELOPMENT Since the year 1991, all state schools have been equipped with a television set and VCR player so that educators could make the most of the tools in the process of teaching and learning, by providing more visual support. Lately, the VCR players have been replaced by DVD players and schools have been provided computers and projectors. For the past 5 years, most schools even have internet connection to enable teachers to do their research work in preparation of their lessons. Also, students are allowed to use internet in school libraries to improve their research skills. However, only 33% of secondary schools in Mauritius have ADSL connection and others are still using the dial-up connection. In 2009, the Ministry of Education launched the EDU-WEB project. This project enables live broadcast and interactive session in real time between the Minister and senior officials and heads of both primary and secondary schools and the education staff. Furthermore, two State Secondary schools have been equipped with Interactive Whiteboards by the Ministry of Education on a pilot base. Subsequently, the government, in collaboration with the Sankorà © Project, is coming with the setting up of at least one Interactive Whiteboard in each of its primary and secondary schools by the end of this year. The Sankorà © Digital Education for all in Africa programme is part of the French contribution to the Franco-British partnership designed to achieve the Millennium objectives in education in Africa. In its 2010 2015 programme, the Sankorà © project is providing digital classroom equipment, resource creation and sharing, professional and schoolmaster training. The equipments provided include computers, projectors and Interactive Whiteboards (IWB). AIMS OBJECTIVES PROCEDURES Synchronous and asynchronous Learner-centered environment ANALYSIS There is a growing body of evidence that young children invent or construct much of their own mathematical knowledge, and that they come to school with some well-developed, although understandably immature ways of dealing with various mathematical situations. We do not seem to take full advantage of childrens conceptions in our programs of mathematics teaching and instruction. ANALYSIS AND FINDINGS VISION STATEMENT MISSION STATEMENT SURVEYS QUESTIONNAIRES SURVEY RESULTS EFFECTIVE TEACHING AND LEARNING CONCLUSION AND RECOMMENDATIONS EMPHASIS ON TECHNOLOGY EDUCATION The ultimate objective of any educational enterprise is to improve student achievement so that individuals may fulfill their personal aspirations and become contributing members of society. This requires meaningful change in the way educators do their work. It requires new structures, new tools and new knowledge. But more than anything, the culture of the education system must change. And creating a culture of achievement throughout an education system requires a different mindset altogether. MOTIVATION AND COMMITMENT ON APPLYING TECHNOLOGY RECOMMENDATIONS Equipment Lab Internet LMC Training of teachers and students

Multiple Personality Disorder :: Medical Medicine disorders Essays

Multiple Personality Disorder Multiple Personality Disorder (MPD) or Dissociative Identity Disorder (DID) was first acknowledged in the 1700's but was not understood so therefore it was forgotten. Many cases show up in medical records through the years, but in 1905, Dr. Morton Prince wrote a book about MPD that is a foundation for the disease. A few years after it was published Sigmund Freud dismissed the affliction and this dropped it from being discussed at any credible mental health meetings. Since then the disorder has been overlooked and misdiagnosed as either schizophrenia or psychosis. Many in the medical profession did not believe that a person could unknowingly have more than one personality or person inside one body, even after the in the 1950's Three Faces of Eve was published by two psychiatrist. In 1993, records showed that three to five thousand patients were being treated for MPD compared to the hundred cases reported ten years earlier. There is still as increase in the number of cases being reported as the scientific community learns more and more about the disease and the public is becoming more and more aware of this mental disorder. There are still many questions left unanswered about the disease, like "Is it genetic?" or "Is a certain type of personality more vulnerable to the disorder?" but many aspects of how people come by the disorder are already answered (Clark, 1993, p.17-19) MPD is commonly found in adults who were recurrently abused mentally, physically, emotionally, and/or sexually as young children, between birth to 8 years of age. The child uses a process called dissociation to remove him/herself from the abusive situation. Dissociation is when a child makes up an imaginary personality to take control of the mind and body while the child is being abused. The child can imagine many personalities but usually there is a personality for every feeling and or emotion that was involved during the abuse (BoyyM, 1998, p.1). As an adult, the abused child finds it hard to keep track of time and may have episodes of amnesia. Other symptoms that will appear in adults with MPD are depression, auditory and visual hallucinations (hearing voices) and suicidal thoughts. Another major symptom is when the adult has no recollection of their childhood. The adult with MPD has no idea they were abused as children and also unaware of the other personalities living inside of their head.   Ã‚  Ã‚  Ã‚  Ã‚   Multiple Personality Disorder is when there is "the presence of two or more distinct identities or personalities, each with its own relatively enduring pattern of perceiving, relating to, and thinking about the environment and self"(BoyyM, 1998, p.1). There can be anywhere from two to over a hundred different personalities.

National Junior Honor Society Essay

To be SCHA Queen would be a great accomplishment. I would be able to demonstrate my leadership skills and express my love for show and horses. As SCHA Queen, I would take great pride in being a spokesperson and representative for SCHA and be able to increase membership in SCHA. SCHA means a number of things to me. This was my first year, but I always looked forward to waking up and going out to ride. Another reason why SCHA means so much to me is it keeps me and my horse in shape for other things involving our riding career. Its always fun to see how much my horse changes and develops during the season, and even how I change throughout the season There’s no where to go but up, and that means improvement. SCHA has changed me by changing my attitude about competition. I’ve now learned that winning is not always everything. , it may sound cliche , but, everyone is a winner when you improve on anything. I also have become more confident horseman and I am able to push my hor se to do his best. I have only been riding for about 3 years and SCHA has truly brought out my inner horseman. Now that I am more confident in my riding skills I try to teach my horse new things as well as teach myself. In addition to new skills and confidence I also made new friends. I met new people and learned some facts about riding I hadn’t known before. In general I am very shy and usually keep to myself, but this season has really taught me how to come out of my shell and talk to everyone. I now know that I can talk to anyone in the club and they will be more than glad to help me with anything I may need. A key part of being Queen would be helping others in SCHA. This would include encouraging others during their events and being a good sportsman. I can also give positive feedback about what a person is doing while riding, to help them in a way that they can ride better and be a better sportsman. To help others in SCHA I can share the knowledge I have learned in SCHA and my experience with horses. Just as other people have shared their knowledge with me, I can do the same for other people so the horse community can grow. My friends are always curious about what I do with horses and what SCHA is. I’m lways more than happy to share that information with them in hopes that they will be bit by the horse bug too. Â  As SCHA quee n I will bring a good values, leadership skills and a positive attitude to SCHA. It would mean a great deal to me to be able to represent SCHA at this level level.

Max Webers Contributions to Sociology