The impact of technology on the pedagogical practice of grade nine applied mathematics teachers.

Ford, John.

January 2007

Thesis (M.A.)--University of Toronto, 2007. / Source: Masters Abstracts International, Volume: 45-06, page: 2787.

Factors related to student persistence in a new residential STEM high school the case of the Tennessee Governor's Academy for Mathematics and Science /

Sullins, Amy C.

January 2010

Thesis (Ph. D.)--University of Tennessee, Knoxville, 2010. / Title from title page screen (viewed on July 14, 2010). Thesis advisor: Gary Skolits. Vita. Includes bibliographical references.

ACHIEVEMENT AND ATTITUDES IN DEVELOPMENTAL MATHEMATICS

Shelton, Patty Jean

08 August 2007

No description available.

Mathematics

Developmental Mathematics

Technology in Mathematics

Mathematics Attitudes

Psychological sense of community and retention rethinking the first-year experience of students in STEM /

Dagley Falls, Melissa.

January 2009

Thesis (Ed.D.)--University of Central Florida, 2009. / Adviser: Rosa Cintrón. Includes bibliographical references (p. 327-371).

Integrated technologies instructional method to enhance bilingual undergraduate engineering students

Mohammed, Abdul Majid

January 2014

Mathematics permeates almost every aspect of human life and it is a skill much needed by the increasingly complex technological world. It is necessary that this essential skill must be properly developed among students to prepare them for future academic and professional careers. An assessment of the research-based instructional strategies blending with old traditional methods with the modern technological development is a must. Due to the complexity of mathematics learning and the varied learning styles of learners, an integration of appropriate multiple instructional strategies into mathematics education will positively impact mathematical achievement of students. The purpose of this research was to examine the effects of the use of Integrated Technologies Instructional Method (ITIM) as a supplement to the traditional lecture method on mathematics achievement of the Integral Calculus students at the College of Engineering, University of Ha'il, Saudi Arabia. The ITIM includes the four instructional strategies such as the use of the Computer-Supported Collaborative Learning, the collaborative learning, the bilingual support and the study support. Different types of academic supports have been used to examine their effects on students achievement in mathematics. Mathematics, the bedrock of science and engineering, is considered a very important indicator of a student's academic success in professional higher education. Undergraduate engineering students' low achievement in the first year mathematics is an issue demands much attention. The study was undertaken to address students' weak background in mathematics and particularly their high failure rates in this particular course. A total of 218 undergraduate engineering students, comprising of both the experimental and the control groups, were involved in this experimental design study. The control group was taught by the traditional lecture method whereas the experimental group was exposed to the ITIM as a supplement to the traditional lecture method. Apart from the effects of the use of ITIM, students' performance in the previous courses (covariates) such as mathematics, computer, and the English language were compared with their final grades of the Integral Calculus course. The final grades of students were taken as the dependent variable and the ITIM and students' scores in the previous courses as the independent variables. It has been noticed from the literature review that the application of only one instructional strategy does not address the needs of the diverse learning styles of students. A mixed mode method, quantitative and qualitative, was used to collect and analyse data. The quantitative data instruments included students' final exam grades and the student questionnaires. Interviews with students were used as qualitative tools of data collection. An independent t-test, ANOVA, univariate analysis and the stepwise multiple regression analysis were performed to determine the overall statistical significance. The study concluded that there was a statistically significant difference in the performance of the experimental group of students' in terms of their end-of-course grades compared to that of the control group. The regression model revealed significance of covariates on the dependent variable. However, no significant relationship was found between the mathematics achievement and attitudes towards the use of ITIM. The study was an attempt to demonstrate the suitability of the instructional strategies on the bilingual Arab undergraduate engineering students; however, they can probably be applicable to other bilingual students.

510.71

Analyzing Students' Mathematical Thinking in Technology-supported Environments

Karadag, Zekeriya

24 February 2010

This study investigates how five secondary students think mathematically and process information in a technology-supported environment while solving mathematics problems. In the study, students were given open-ended problems to explore in an online dynamic learning environment and to solve the problems in computer environments. Given that all the work was done in the computer environments, both online and offline, students’ work was recorded by using screen capturing software. A new method, the frame analysis method, was used to describe and analyze students’ thinking processes while they were interacting with mathematical objects in the dynamic learning environment and solving mathematics problems. The frame analysis method is a microgenetic method based on information processing theory and is developed to analyze students’ work done in computer environments. Two reasons make the analysis method used in this study unique: (a) collecting data with minimized disturbance of the students and (b) analyzing students’ artefacts through researcher’s (teacher) perspective, meaning that integrates teachers within the analysis process. The frame analysis method consists of multiple steps to observe, describe, interpret, and analyze students’ mathematical thinking processes when they are solving mathematics problems. I described each step in detail to explain how the frame analysis method was used to monitor students’ mathematical thinking and to track their use of technology while solving problems. The data emerged from this study illustrates the importance of using dynamic learning environments in mathematics and the potential for transformation of mathematical representational systems from symbolic to visual. Moreover, data suggest that visual representation systems and linked multi-representational systems encourage students to interact with mathematical concepts and advance their mathematical understanding. Rather than dealing with the grammar of algebra only, students may benefit from direct interaction with the visually represented mathematical concepts. It appears that recording students’ problem-solving processes may engage teachers and mathematics educators to seek opportunities for implementing process-oriented assessment into their curriculum activities. Furthermore, students may benefit from sharing their work through peer collaboration, either online or offline, and metacognition and self-assessment. Suggestions for further studies include using audio and video recording in the frame analysis method.

Mathematical thinking

technology in mathematics education

mathematics education

frame analysis method

0727

Uma releitura dos princípios montessorianos para o ensino de matemática nos anos finais do Ensino Fundamental

Molon, João Vicente

January 2015

Em 1870, na Itália, nasce Maria Montessori. De uma criança e adolescente curiosa, surge uma mulher corajosa e com ideias à frente de seu tempo. Ingressa na Faculdade de medicina, tornando-se a primeira mulher a concluí-la em toda a Itália. Estuda filosofia, psicologia experimental e pedagogia na Faculdade de Filosofia da Universidade de Roma, voltando todos os seus esforços para a Educação. Após escrever livros e ministrar palestras sobre Educação, suas ideias percorrem o planeta e, hoje, são utilizadas em várias escolas, em diferentes países. Percebe-se nessas escolas que, em algum momento da vida do escolar, ocorre uma ruptura das ideias montessorianas, que param de ser usadas, normalmente, nos anos iniciais do ensino fundamental. O objetivo deste trabalho é apresentar a pesquisa que teve como questão norteadora: é possível fazer uma releitura da perspectiva montessoriana de modo a abordar alguns conteúdos que são trabalhados nos anos finais do ensino fundamental na disciplina de matemática? Diante de tal questão, foram elencados os seguintes objetivos: contextualizar a vida e as obras de Maria Montessori, inseridas no contexto social, político e econômico da Itália no século XIX e início do século XX; fazer uma releitura dos princípios montessorianos de modo a potencializar tais processos de ensino e aprendizagem da matemática nos anos finais do ensino fundamental, no contexto contemporâneo; selecionar, aplicar e analisar uma proposta de atividades fazendo uso dos princípios montessorianos em uma turma dos anos finais do ensino fundamental de uma escola de Porto Alegre, abordando os conteúdos de produtos notáveis e funções, utilizando tecnologias. Para contextualizar a vida e as obras de Maria Montessori, foram feitas leituras de suas obras e de obras a seu respeito, além de leituras que traçam um panorama da Itália na época em que viveu. Também foram consultadas obras que se utilizem do tripé: matemática, didática e tecnologia. Com isso, foi adquirido conhecimento para selecionar, aplicar e analisar uma proposta de ensino, seguindo os princípios montessorianos e fazendo uso de tecnologias, que poderá ser utilizada por professores de matemática nos anos finais do ensino fundamental. Com a pesquisa, verificou-se que é possível, no contexto contemporâneo de tempo e espaço escolar, manter vivos os princípios montessorianos, de modo que a ação do professor de matemática crie situações de aprendizagem que respeitem a individualidade e o ritmo de cada aluno e que promovam sua autoeducação, sem que se perca a conexão com o outro e com o mundo, na perspectiva de uma educação para a paz. / In 1870, in Italy, Maria Montessori was born. A curious child became a brave woman with ideas ahead of her time. She joined the Medical School, becoming the first woman to complete it throughout Italy. She studied philosophy, experimental psychology and pedagogy at the Faculty of Philosophy of Rome University, returning all her efforts to Education. After writing books and giving lectures on Education, her ideas roam the planet and are now used in several schools in different countries. It can be seen in these schools that, at some point in the school life, there is a rupture of Montessori’s ideas, when they stop being used, usually in the early years of elementary school. The aim of this work is to present the research that had as its guiding question: is it possible to make a rereading of Montessori’s approach in order to address some contents that are worked in the final years of elementary school in mathematics? Faced with this question, the following objectives were listed: contextualize life and work of Maria Montessori, inserted in the social, political and economic development of Italy in the nineteenth and early twentieth century; make a rereading of Montessori’s principles in order to enhance these processes of teaching and learning of mathematics in the final years of elementary school, in the contemporary context; select, implement and analyze a proposal of activities making use of Montessori’s principles in a class of final years of elementary education at a school in Porto Alegre, addressing the contents of remarkable products and functions, using technology. To contextualize the life and the work of Maria Montessori, were made readings of her works and of works about her, and readings painting a panorama of Italy at the time in which she lived. Were also consulted works that use the tripod: mathematics, teaching and technology. With these, it was acquired knowledge to select, implement and analyze an educational proposal, following the Montessori’s principles and making use of technologies that can be applied by math teachers in the final years of elementary school. Through this research, it was verified that it is possible, in the contemporary context of time and school space, to keep alive the Montessori’s principles, so that the math teacher's action creates learning situations that respect the individuality and the rhythm of each student and promotes his self-education, without losing the connection with each other and with the world, in a perspective of education for peace.

Educação Matemática

Montessori, Maria, 1870-1952

Aprendizagem lúdica

Mathematics education

Technology in mathematics education

Matemática dinâmica na resolução de questões da OBMEP

Pereira, Laís de Almeida

January 2017

Esta pesquisa foi regida pela seguinte questão: quais são as contribuições do uso de software de matemática dinâmica para a compreensão e solução de questões de geometria e contagem da OBMEP? Em termos pedagógicos, o objetivo foi trabalhar com questões desafiadoras com apelo ao dinamismo, assim o banco de questões da OBMEP1 foi escolhido por possuir questões bem elaboradas e com enunciados claros e desafiadores. Pretendeu-se, portanto, apresentar o software GeoGebra2 como recurso para resolver questões de geometria e de contagem e, analisar a produção dos alunos, avaliando como o GeoGebra contribuiu para a construção do conhecimento matemático. A metodologia utilizada foi a pesquisa qualitativa para produzir um Experimento de Ensino. As atividades foram desenvolvidas no contra turno com alunos do 7º e 8º ano do Ensino Fundamental em uma escola municipal de Gravataí, no ano de 2017. A sequência didática produzida nesta pesquisa é o produto didático da dissertação. A coleta de registros foi feita a partir de gravações de áudio e vídeo, diário de campo e arquivos de GeoGebra que contribuíram para o desenvolvimento do trabalho. A análise dos dados coletados demonstrou que o GeoGebra é interessante para desenvolver o raciocínio em questões em que a prova do arrastar (BORBA, DA SILVA, GADANIDIS, 2015, p.23) seja necessária. Assim, o software contribuiu para a construção de conceitos e compreensão de propriedades em figuras geométricas sendo possível verificar o comportamento dessas figuras conforme a utilização dos recursos do software. O GeoGebra também demonstrou ser útil para organização de ideias em problemas de contagem. No entanto, deve-se cuidar para que não haja a domesticação do software, ou seja, para não o utilizar no lugar de outras tecnologias que já são satisfatórias. / This research was conducted by the following question: What are the contributions of the use of dynamic mathematic software for understanding and solving OBMEP geometry and counting questions? In pedagogical terms, the objective was to work with challenging questions with a call for dynamism, so the OBMEP3 questions database was chosen because it has well elaborated math problems with clear and challenging statements. It was intended, therefore, to present GeoGebra4 software as a resource to solve geometry and counting questions and to analyze the students' production, evaluating how did GeoGebra contribute to the construction of mathematical knowledge. The methodology used was the qualitative research to produce a Teaching Experiment. The activities were developed in the inverse shift with students of the 7th and 8th years of elementary school in a municipal public school in Gravataí, in the year 2017. The didactic sequence produced in this research is the didactic product of the dissertation. The collection of records was made from audio and video recordings, field notes and GeoGebra files that contributed to the development of the work. The analysis of collected data showed that GeoGebra is interesting to develop the reasoning in questions where the drag test (BORBA, DA SILVA, GADANIDIS, 2015, p.23) is necessary. Thus, software contributes to the construction of concepts and understanding of properties in geometric figures and it is possible to verify their behavior according to the use of software resources. GeoGebra has also been shown to be useful for organizing ideas into counting problems. However, care must be taken that there is no domestication of the software, in other words, software should not be used in place of other technologies that are already satisfactory.

Educação Matemática

GeoGebra : Software

Ensino de matematica

Mathematics Education

Technology in Mathematics Teaching

STEM Courses at ETSU

Robertson, Laura

01 March 2017

No description available.

STEM

East Tennessee State University

Curriculum and Instruction

Higher Education

Science and Mathematics Education

Computing in STEM

Nivens, Ryan Andrew

15 November 2016

No description available.

STEM

computing

Curriculum and Instruction

Computer Sciences

Science and Mathematics Education