756 resultados para Mathematics, Egyptian.
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The aim of the project is to determine if the understanding of the language of Mathematics of students starting university is propitious to the development of an appropriate cognitive structure. The objective of this current work was to analyse the ability of first-year university students to translate the registers of verbal or written expressions and their representations to the registers of algebraic language. Results indicate that students do not understand the basic elements of the language of Mathematics and this causes them to make numerous errors of construction and interpretation. The students were not able to associate concepts with definitions and were unable to offer examples.
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A suitable knowledge of the orientation and motion of the Earth in space is a common need in various fields. That knowledge has been ever necessary to carry out astronomical observations, but with the advent of the space age, it became essential for making observations of satellites and predicting and determining their orbits, and for observing the Earth from space as well. Given the relevant role it plays in Space Geodesy, Earth rotation is considered as one of the three pillars of Geodesy, the other two being geometry and gravity. Besides, research on Earth rotation has fostered advances in many fields, such as Mathematics, Astronomy and Geophysics, for centuries. One remarkable feature of the problem is in the extreme requirements of accuracy that must be fulfilled in the near future, about a millimetre on the tangent plane to the planet surface, roughly speaking. That challenges all of the theories that have been devised and used to-date; the paper makes a short review of some of the most relevant methods, which can be envisaged as milestones in Earth rotation research, emphasizing the Hamiltonian approach developed by the authors. Some contemporary problems are presented, as well as the main lines of future research prospected by the International Astronomical Union/International Association of Geodesy Joint Working Group on Theory of Earth Rotation, created in 2013.
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This heavily illustrated notebook contains extensive notes on spheric triangles and spheric angles. These include rules and examples with their solutions.
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The first two pages of this notebook contain a comparative chronology of the reign of Augustus, outlined in two columns. One column outlines the chronology according to ecclesiastical scholar Laurence Echard, and the other column outlines the chronology according to William Cave. The rest of the notebook contains extensive entries on the following subjects, with related rules, problems, and illustrations: fractions, decimals, arithmetical progression, geometrical progression, "disjunct proportion, or ye Golden Rule," signs and symbols, integers, geometrical definitions, and Euclidian geometry.
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With sections on numeration, surveying, trigonometry and other topics, accompanied by diagrams and hand-colored illustrations.
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Notebook containing the handwritten mathematical exercises of William Tudor, kept in 1795 while he was an undergraduate at Harvard College. The volume contains rules, definitions, problems, drawings, and tables on geometry, trigonometry, surveying, calculating distances, sailing, and dialing. Some of the exercises are illustrated with hand-drawn diagrams. The Menusration of Heights and Distances section contains color drawings of buildings and trees, and some have been altered with notes in different hands and with humorous additions. For instance, a drawing of a tower was drawn into a figure titled “Egyptian Mummy.” Some of the images are identified: “A rude sketch of the Middlesex canal,” Genl Warren’s monument on Bunker Hill,” “Noddles Island,” “the fields of Elysium,” and the “Roxbury Canal.” The annotations and additional drawings are unattributed.
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Sections on numeration, interest, square root, geometry and surveying with accompanying diagrams.
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Bound volume containing a late 17th century handwritten mathematical and astronomical text in one hand. The text is separated into mathematical and astronomical sections with rules, instructions for performing calculations, tables, and drawings. The subjects include arithmetic, geometry, astronomy, and trigonometry, and segments have titles such as "Subtraction," "A decimal table of English coince," "Logarithes & their use," and "To find the true place of the sun." The text is undated and unattributed but references Briggs, Oughtred, Ramus, and Apollonius. Certain tables are calculated from latitudinal and longitudinal numbers associated with Boston, and many of the examples use dates in the 1670s and 1680. The manuscript pages are mounted onto unruled pages, and some of the manuscript pages are fragments.
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Instructional book in algebra with exercises.
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The integration of mathematics and science in secondary schools in the 21st century continues to be an important topic of practice and research. The purpose of my research study, which builds on studies by Frykholm and Glasson (2005) and Berlin and White (2010), is to explore the potential constraints and benefits of integrating mathematics and science in Ontario secondary schools based on the perspectives of in-service and pre-service teachers with various math and/or science backgrounds. A qualitative and quantitative research design with an exploratory approach was used. The qualitative data was collected from a sample of 12 in-service teachers with various math and/or science backgrounds recruited from two school boards in Eastern Ontario. The quantitative and some qualitative data was collected from a sample of 81 pre-service teachers from the Queen’s University Bachelor of Education (B.Ed) program. Semi-structured interviews were conducted with the in-service teachers while a survey and a focus group was conducted with the pre-service teachers. Once the data was collected, the qualitative data were abductively analyzed. For the quantitative data, descriptive and inferential statistics (one-way ANOVAs and Pearson Chi Square analyses) were calculated to examine perspectives of teachers regardless of teaching background and to compare groups of teachers based on teaching background. The findings of this study suggest that in-service and pre-service teachers have a positive attitude towards the integration of math and science and view it as valuable to student learning and success. The pre-service teachers viewed the integration as easy and did not express concerns to this integration. On the other hand, the in-service teachers highlighted concerns and challenges such as resources, scheduling, and time constraints. My results illustrate when teachers perceive it is valuable to integrate math and science and which aspects of the classroom benefit best from the integration. Furthermore, the results highlight barriers and possible solutions to better the integration of math and science. In addition to the benefits and constraints of integration, my results illustrate why some teachers may opt out of integrating math and science and the different strategies teachers have incorporated to integrate math and science in their classroom.
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A vertiginosa difusão das TIC e o crescente desenvolvimento de diverso software científico estão a produzir mudanças relevantes nos processos formativos em matemática, estando estas a favorecer a criação de novos e melhores recursos didáticos e de autoaprendizagem, assim como uma nova forma de gerar e difundir conhecimento ou experiências cognitivas (Atencio, 2013). No entanto para tirar partido, a nível pessoal ou profissional, da variedade de recursos que estão ao nosso alcance para aprender/ensinar matemática, como os programas Geogebra, Surfer, GeCla, Microsoft Mathematics etc., é importante conhecê-los e saber trabalhar com eles. Tendo em vista este objetivo, neste Workshop pretende-se “apresentar” o software Microsoft Mathematics, explorá-lo como recurso na resolução de algumas tarefas de matemática, assim como discutir as suas potencialidades e limitações. O software Microsoft Mathematics, inicialmente com a designação Microsoft Math, foi lançado pela Microsoft Corporation em 2006, e surgiu para tentar resolver o problema de muitos alunos brasileiros que tinham dificuldades nas disciplinas que envolviam cálculo. No início estava apenas disponível para uso de uma comunidade estudantil que, com o apoio de empresas e universidades, visava formar alunos na área de tecnologias de informação para o mercado de trabalho. Depois de algumas melhorias, o programa passou a ser disponibilizado para o público em geral e a ser comercializado (Sousa e Araújo (s.d.)). Atualmente a versão 4.0 é a mais recente, é gratuita e está disponível para download na internet no site https://www.microsoft.com/ptpt/ download/details.aspx?id=15702. Do ponto de vista da matemática, o Microsoft Mathematics abrange domínios como a aritmética, o cálculo, a álgebra e a estatística. Por exemplo, permite executar uma diversidade de cálculos: resolver equações, inequações e sistemas de equações, converter unidades de medida, calcular estatísticas básicas (como média e desvio-padrão), efetuar operações com números complexos, calcular derivadas e integrais, realizar operações com matrizes, entre outros, e, em alguns casos, possibilita a consulta da resolução passo a passo. Tem também uma vertente gráfica, podendo representar-se gráficos a duas ou a três dimensões. Esta funcionalidade possibilita, ainda, representar graficamente equações com parâmetros, o que permite visualizar as mudanças em função da variação do valor do parâmetro, que pode ser de grande utilidade, por exemplo, na discussão de sistemas de equações lineares. Em termos de usabilidade, o Microsoft Mathematics tem uma interface simples e facilmente compreensível para o utilizador e a sintaxe para comunicar com o software é quase sempre a que se utiliza em matemática. Torna-se igualmente uma mais-valia quando se pretende produzir documentos em Word com simbologia matemática, pois permite exportar para este aplicativo o trabalho realizado. Conclui-se, assim, que o Microsoft Mathematics é um software educativo que fornece um conjunto de ferramentas que podem constituir um apoio para os estudantes do 3.º ciclo do ensino básico, do ensino secundário e ensino superior, na resolução de tarefas que exigem conhecimentos matemáticos. Pode, ainda, tornar-se um recurso útil para os professores tanto na preparação de aulas como no contexto de sala de aula, na medida em que, para além de facilitar a execução de cálculos, permite explorar alguns conteúdos de uma forma interativa e com maior profundidade.
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The concept of citizenship is one of the most complicated in political and social sciences. Its long process of historical development makes dealing with it particularly complicated. Citizenship is by nature a multi-dimensional concept: there is a legal citizenship, referring first to the equal legal status of individuals, for instance the equality between men and women. Legal citizenship also refers to a political dimension, the right to start and/or join political parties, or political participation more broadly. Thirdly, it has a religious dimension relating to the right of all religious groups to equally and freely practice their religious customs and rituals. Finally, legal citizenship possesses a socio-economic dimension related to the non-marginalisation of different social categories, for instance women. All of these dimensions, far from being purely objects of legal texts and codifications, are emerging as an arena of political struggle within the Egyptian society. Citizenship as a concept has its roots in European history and, more specifically, the emergence of the nation state in Europe and the ensuing economic and social developments in these societies. These social developments and the rise of the nation state have worked in parallel, fostering the notion of an individual citizen bestowed with rights and obligations. This gradual interaction was very different from what happened in the context of the Arab world. The emerging of the nation state in Egypt was an outcome of modernisation efforts from the top-down; it coercively redesigned the social structure, by eliminating or weakening some social classes in favour of others. These efforts have had an impact on the state-society relation at least in two respects. First, on the overlapping relation between some social classes and the state, and second, on the ability of some social groups to self-organise, define and raise their demands. This study identifies how different political parties in Egypt envision the multi-dimensional concept of citizenship. We focus on the following elements: Nature of the state (identity, nature of the regime) Liberties and rights (election laws, political party laws, etc.) Right to gather and organise (syndicates, associations, etc.) Freedom of expression and speech (right to protest, sit in, strike, etc.) Public and individual liberties (freedom of belief, personal issues, etc.) Rights of marginalised groups (women, minorities, etc.)
