A longitudinal analysis of estimation, counting skills, and mathematical ability across the first school year

In response to claims that the quality (and in particular linearity) of children's mental representation of number acts as a constraint on number development, we carried out a longitudinal assessment of the relationships between number line estimation, counting, and mathematical abilities. Ninety-nine 5-year-olds were tested on 4 occasions at 3 monthly intervals. Correlations between the 3 types of ability were evident, but while the quality of children's estimations changed over time and performance on the mathematical tasks improved over the same period, changes in one were not associated with changes in the other. In contrast to the earlier claims that the linearity of number representation is potentially a unique contributor to children's mathematical development, the data suggest that this variable is not significantly privileged in its impact over and above simple procedural number skills. We propose that both early arithmetic success and estimating skill are bound closely to developments in counting ability.

Learning to think spatially : what do students 'see' in numeracy test items?

Learning to think spatially in mathematics involves developing proficiency with graphics. This paper reports on 2 investigations of spatial thinking and graphics. The first investigation explored the importance of graphics as 1 of 3 communication systems (i.e. text, symbols, graphics) used to provide information in numeracy test items. The results showed that graphics were embedded in at least 50 % of test items across 3 year levels. The second investigation examined 11 – 12-year-olds’ performance on 2 mathematical tasks which required substantial interpretation of graphics and spatial thinking. The outcomes revealed that many students lacked proficiency in the basic spatial skills of visual memory and spatial perception and the more advanced skills of spatial orientation and spatial visualisation. This paper concludes with a reaffirmation of the importance of spatial thinking in mathematics and proposes ways to capitalize on graphics in learning to think spatially.

Mathematics and reading difficulty subtypes: Minor phonological influences on mathematics for 5-7 year olds

Linguistic influences in mathematics have previously been explored throughsubtyping methodology and by taking advantage of the componential nature ofmathematics and variations in language requirements that exist across tasks. Thepresent longitudinal investigation aimed to examine the language requirements of mathematical tasks in young children aged 5-7 years. Initially, 256 children were screened for mathematics and reading difficulties using standardised measures. Those scoring at or below the 35th percentile on either dimension were classified as having difficulty. From this screening, 115 children were allocated to each of the MD (n=26), MDRD (n=32), reading difficulty (RD, n=22) and typically achieving (TA, n=35) subtypes. These children were tested at four time points, separated by six monthly intervals, on a battery of seven mathematical tasks. Growth curve analysis indicated that, in contrast to previous research on older children, young children with MD and MDRD had very similar patterns of development on all mathematical tasks. Overall, the subtype comparisons suggested that language played only a minor mediating role in most tasks, and this was secondary in importance to non-verbal skills. Correlational evidence suggested that children from the different subtypescould have been using different mixes of verbal and non-verbal strategies to solve the mathematical problems.

A aprendizagem dos números racionais através das conexões entre as suas representações:uma experiência de ensino no 2º ciclo do ensino básico

Tese de doutoramento, Educação (Didática da Matemática), Universidade de Lisboa, Instituto de Educação, 2014

A aprendizagem da função afim no 8º ano : uma proposta apoiada nas tecnologias e na educação financeira

Trabalho de projeto de mestrado, Educação (Área de especialidade em Didática da Matemática), Universidade de Lisboa, Instituto de Educação, 2015

Awareness of number in children with severe and profound learning difficulties: three exploratory case studies

This paper reports on exploratory work investigating how children with severe and profound learning difficulties register an awareness of small quantities and how they might use this information to inform their understanding. It draws on studies of typically developing children and investigates their application to pupils whose response to conventional mathematical tasks are often limited because they lack relevance and interest. The responses of the three pupils to individualized learning contexts mirror the progression suggested in the literature, namely from awareness of number to simple actions using number cues to problem-solving behaviour

Atividades exploratório-investigativas em sala de aula de cálculo I com uso de tecnologia

This study presents the results from a qualitative resource, based on research-action methodology, which examined the innovate teaching practices implementations in the Calculus I during 2011 year. The analysis of collected data from three used sources – an initial questionnaire, an exploratory-investigative classroom, and an interview with some students at the end of the second semester – reveals that the students had appropriated of the technological recourses, using it as a tool to look for the knowledge. The investigative activities with the use of information technologies made the use of multiple representations in solving mathematical tasks, making the transition of numerical, algebraic and geometrical results possible for the students when they have looking for validation of their hypotheses and conjectures during mathematical problems solving. This works helped in the insertion of new practices in the discipline, and their results validate the proposal presented by the teacher, which is the discipline of Calculus use, whose character is strongly linked to the training content of the student, as a discipline whose can contributed to the pedagogical formation of the graduation student, leading him to know the Mathematical Education possibilities, specially the Mathematical Investigation - Solving Problems, in the outlook of dialogued classes where the teacher assumes the facilitator role and where the students become actives in their pursuit of knowledge

Conversas sobre matemática com pessoas idosas viabilizadas por uma ação de extensão universitária

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

L’effetto “età della Terra”. Contratto didattico e principi regolativi dell’azione degli studenti in matematica.

L’oggetto di questa tesi è un fenomeno didattico osservato in due valutazioni standardizzate nazionali INVALSI, legato all’atteggiamento degli studenti mentre svolgono task di matematica. L’effetto, che abbiamo denotato effetto “età della Terra”, è stato interpretato in questa ricerca attraverso l’interazione e il confronto di diversi costrutti teorici che spiegano come questo effetto, che può essere considerato come una tipica situazione di contratto didattico, è generato dalla relazione studente-insegnante ma può diventare più strettamente legato al rapporto che hanno gli studenti con la matematica. Inizialmente abbiamo condotto uno studio dei risultati statistici delle valutazioni standardizzate nazionali (Rash Analysis). Il primo step della sperimentazione è consistito nella preparazione, validazione e somministrazione di 612 questionari a studenti di diversi livelli scolastici e basandoci sui risultati dei questionari abbiamo condotto interviste di gruppo. L’analisi quantitativa e qualitativa dei risultati ha confermato la presenza dell’effetto “età della Terra” e ha mostrato che questo effetto è indipendente dal livello scolastico e dall’età degli studenti, dal contenuto matematico e dal contesto dei task proposti. La seconda parte della ricerca è stata volta ad indagare la cause di questo effetto. Abbiamo infatti individuato un principio regolativo che condizione l’azione degli studenti mentre fanno attività matematica e abbiamo condotto molte interviste individuali per indagarlo. Il comportamento degli studenti intervistati è stato così studiato e classificato con i costrutti del quadro teorico.

A avaliação formativa por meio do feedback escrito no processo de ensino-aprendizagem de alunos de 2.º ciclo em matemática

Relatório final apresentado para a obtenção do grau de mestre em Ensino do 1.º ciclo e do 2.º ciclo do ensino básico

Tareas matemáticas en la formación de maestros: caracterizando perspectivas

El diseño de tareas en los programas de formación de maestros se vincula al desarrollo del conocimiento necesario para realizar diferentes tareas profesionales- organizar el contenido matemático, interpretar el aprendizaje, gestionar la enseñanza. Se ejemplifica esta perspectiva en el caso del diseño de tareas matemáticas considerando la tarea profesional del maestro de analizar libros de texto.

Explorando el flujo que experimentan los estudiantes para maestro de primaria al enfrentarse a tareas en grupo

Cuando un estudiante experimenta flujo, esto es, está plenamente concentrado en la resolución de una tarea y disfruta con ello, aumenta el rendimiento alcanzado y el deseo por continuar realizando tareas similares. Investigaciones realizadas con estudiantes con talento afirman que para experimentar flujo es necesario proponer desafíos acordes a las habilidades del estudiante, establecer metas claras y proporcionar retroalimentación inmediata. Esta investigación pretende contrastar si esta afirmación es válida en el caso de estudiantes de maestro de primaria con habilidades medias, al trabajar en grupo para resolver tareas matemáticas. Para ello, se comparó el comportamiento de dos grupos de estudiantes al resolver dos tareas matemáticas. Los resultados confirman la importancia de establecer metas claras, proporcionar retroalimentación inmediata, de que el estudiante confíe en su capacidad para superar las dificultades y se sienta útil.

¿Cómo dar sentido a las situaciones de enseñanza-aprendizaje de las Matemáticas? Algunos aspectos de la competencia docente del profesor

La idea de competencia docente del profesor puede ser entendida como el ser capaz de usar el conocimiento de manera pertinente en el desarrollo de las tareas profesionales vinculadas a la enseñanza de las matemáticas. Un aspecto de la competencia docente es “mirar de manera profesional” la enseñanza de las matemáticas. Mirar de manera profesional debe ser entendido como poder identificar lo que es relevante para el aprendizaje de las matemáticas de los estudiantes e interpretarlo para fundamentar la toma de decisiones de acción según los objetivos planteados. Se presentan características de dos situaciones en las que es posible identificar rasgos de esta competencia: reconocer la legitimidad de las respuestas de los alumnos a algunas tareas matemáticas cuando éstas no reflejan un procedimiento estándar, y reconocer la progresión en la comprensión de los estudiantes de alguna idea matemática.

A avaliação formativa por meio do feedback escrito no processo de ensino-aprendizagem de alunos de 2.º ciclo em matemática

Relatório final apresentado para a obtenção do grau de mestre em Ensino do 1.º ciclo e do 2.º ciclo do ensino básico

Connecting visual and analytic reasoning to improve students' spatial visualization abilities: A constructivist approach

Current reform initiatives recommend that school geometry teaching and learning include the study of three-dimensional geometric objects and provide students with opportunities to use spatial abilities in mathematical tasks. Two ways of using Geometer's Sketchpad (GSP), a dynamic and interactive computer program, in conjunction with manipulatives enable students to investigate and explore geometric concepts, especially when used in a constructivist setting. Research on spatial abilities has focused on visual reasoning to improve visualization skills. This dissertation investigated the hypothesis that connecting visual and analytic reasoning may better improve students' spatial visualization abilities as compared to instruction that makes little or no use of the connection of the two. Data were collected using the Purdue Spatial Visualization Tests (PSVT) administered as a pretest and posttest to a control and two experimental groups. Sixty-four 10th grade students in three geometry classrooms participated in the study during 6 weeks. Research questions were answered using statistical procedures. An analysis of covariance was used for a quantitative analysis, whereas a description of students' visual-analytic processing strategies was presented using qualitative methods. The quantitative results indicated that there were significant differences in gender, but not in the group factor. However, when analyzing a sub sample of 33 participants with pretest scores below the 50th percentile, males in one of the experimental groups significantly benefited from the treatment. A review of previous research also indicated that students with low visualization skills benefited more than those with higher visualization skills. The qualitative results showed that girls were more sophisticated in their visual-analytic processing strategies to solve three-dimensional tasks. It is recommended that the teaching and learning of spatial visualization start in the middle school, prior to students' more rigorous mathematics exposure in high school. A duration longer than 6 weeks for treatments in similar future research studies is also recommended.