Identifying Data

2015/16

Subject (*)

Investigación e innovación en didáctica da matemática

Code

652513221

Study programme

Mestrado Universitario en Didácticas Específicas

Descriptors

Cycle

Period

Year

Type

Credits

Official Master's Degree

2nd four-month period

First

Obligatoria

3

Language

Teaching method

Face-to-face

Prerequisites

Department

Pedagoxía e Didáctica

Coordinador

Mato Vázquez, Mª Dorinda

E-mail

m.matov@udc.es

Lecturers

Mato Vázquez, Mª Dorinda

Naya Riveiro, Maria Cristina

E-mail

m.matov@udc.es

cristina.naya@udc.es

Web

General description

Study programme competencies

Code	Study programme competences
A1	To know the theoretical basis of interdisciplinary work and identify its centre of interest in school and non-school contexts.
A2	To identify and critically analyse interdisciplinary proposals in the educational world.
A3	To design, justify and evaluate in a systematic manner interdisciplinary proposals in different educational contexts.
A4	To develop the linguistic competence in a foreign language oriented towards the teaching in specific subjects.
A5	To acquire a methodological training to carry out educational research.
A6	To stablish the general descriptors which conform a research project: to select, to develop, to deal with and interpret data and present results according to the purpose of the research.
A7	- To be able to apply theoretical knowledge related to Specific Didactics, both in research as in innovation and evaluation.
A8	To be able to defend and argue in oral and written ways the completed investigation and/or innovation work, using audio-visual aids.
A9	To test and evaluate disciplinary and interdisciplinary teaching projects in real educational contexts and to promote suggestions for improvement related to the obtained results.
A10	To know the theoretical basis which sustain research and innovation in the field of Specific Didactics.
A11	To know and understand scientific language and use it correctly in different ways of expression and communication.
A12	To identify the main research and innovation lines and their evolution in the area of Specific Didactics.
A13	To analyse and critically assess research work and innovation projects in specific disciplinary fields.
A14	To know the different types of methodologies used in educational research considering its appropriateness for problem-solving.
A15	To identify quality and control criteria both in research and in the teaching practice, encouraging a critical, reflective and innovative spirit.
A16	To design, justify and evaluate research and innovation projects in the field of Specific Didactics.
A17	To select, adapt and apply materials, resources and ICTs to improve the teaching and learning in different disciplinary fields.
A18	To acknowledge the research and innovation applied to Educational Sciences as a lifelong tool for innovation, educational and social improvement.
B1	To have and understand general knowledge to establish foundations and /or opportunities to stand out in the development and implementation of ideas, mainly in an action- research context.
B2	To be able to apply the acquired foundations and their problem-solving capabilities in new multidisciplinary contexts related to the specific research areas.
B3	To be able to join contents and accept the challenge to formulate complex statements out of a limited or incomplete information, including reflections about social and ethic responsibilities related to the application of their own knowledge and opinions.
B4	To be able to transfer and communicate their conclusions and opinions in a clear and straight manner both in a specialized and a non-specialized audience.
B5	To have the required learning abilities to continue in a life-long-learning and autonomous process.
B6	To be able to analyse and synthesize.
B7	To be able to adapt to new situations.
B8	To work with initiative and in an autonomous way.
B9	To work in a collaborative way.
B10	To be able to organize and plan in curricular and cross-curricular subjects.
B11	To be able to innovate (creativity) within educational and non-educational contexts.
B12	to behave with ethics and with social and environmental responsibility as a teacher and/or researcher.
B13	To be able to communicate with their peers, educational community and with society in general in the field of their areas of knowledge.
B14	To incorporate ICTs for the research process, information management, data analysis and for transferability.
B15	To be able to update knowledge, methodologies and strategies in their teaching practices
C1	To express correctly, both orally and in written texts, in the two co-official languages of the Autonomous Community.
C2	To express correctly, both orally and in written texts, in a foreign language (English).
C3	To use the main ICT’s basic tools for their professional development and for their life-long-learning process.
C4	To be able to self-develop for an open, critical, committed, democratic and solidary citizenship.
C5	To understand the importance of the entrepreneurship culture and the available means for entrepreneurs.
C6	To critically value available knowledge, technology and information to solve problems which students must face.
C7	To assume as a professional and as a citizen the importance of life-long-learning.
C8	To value the importance that research, innovation and technical developments have on society’s socio-economical and cultural progress.

Learning aims

Learning outcomes	Study programme competences
Conocer las principales metodologías, instrumentos y técnicas de investigación e innovación en didáctica de la matemática.	AJ2 AJ3 AJ5 AJ6 AJ12 AJ13 AJ17	BJ1 BJ14 BJ15	CJ3 CJ6 CJ8
Aplicar los principios básicos de la investigación sobre el trabajo práctico en el análisis de procesos vinculados a la mejora de la competencia matemática.	AJ7 AJ8 AJ9 AJ10 AJ11 AJ12 AJ15	BJ2 BJ3 BJ4 BJ5 BJ6 BJ8 BJ9 BJ13	CJ1 CJ2 CJ5 CJ6 CJ7
Conocer y analizar la importancia de los recursos didácticos para mejorar las actitudes hacia la matemática.	AJ11 AJ18	BJ6 BJ7 BJ8 BJ9 BJ10 BJ11 BJ12 BJ14	CJ3 CJ4 CJ6 CJ7 CJ8
Planificar investigaciones sobre problemas relacionados con la práctica, en consideración con los avances teóricos en el campo de conocimiento.	AJ1 AJ3 AJ4 AJ6 AJ13 AJ14 AJ15 AJ16 AJ17	BJ6 BJ7 BJ8 BJ9 BJ10 BJ11 BJ12 BJ14	CJ1 CJ5 CJ7 CJ8

Contents

Topic	Sub-topic
Procesos de adquisición del conocimiento en matemáticas.	Procesos de adquisición del conocimiento en matemáticas.
Diseño y desarrollo de metodologías, instrumentos, técnicas, recursos para la enseñanza-aprendizaje de las matemáticas.	Diseño y desarrollo de metodologías, instrumentos, técnicas, recursos para la enseñanza-aprendizaje de las matemáticas.
Principios básicos de la innovación e investigación en educación matemática.	Principios básicos de la innovación e investigación en educación matemática.

Planning

Methodologies / tests	Competencies	Ordinary class hours	Student’s personal work hours	Total hours
Document analysis	A2 A12 A15 B14 B15	0	10	10
Collaborative learning	A8 A9 A13 A17 B2 B3 B8 B9 B12 C7	8.5	8.5	17
Directed discussion	A7 B1 B4 B5 B7 B12 B13 C1 C2 C4 C6 C8	10	14	24
Research (Research project)	A3 A4 A5 A6 A7 A16 A17 A18 B6 B8 B9 B10 B11 C3 C5 C8	0.5	18.5	19
Oral presentation	A8 B3 B4 B6 B7 B8 B9 B13 C1 C2	0.5	1.5	2
Introductory activities	A1 A10 A11 A14	2	0	2

Personalized attention		1	0	1

(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies

Methodologies	Description
Document analysis	Técnica metodolóxica que supón a utilización de documentos audiovisuais e/ou bibliográficos (fragmentos de reportaxes documentais ou películas, noticias de actualidade, paneis gráficos, fotografías, biografías, artigos, textos lexislativos, etc.) relevantes para a temática da materia con actividades especificamente deseñadas para a análise dos mesmos. Pódese empregar como introdución xeral a un tema, como instrumento de aplicación do estudo de casos, para a explicación de procesos que non se poden observar directamente, para a presentación de situacións complexas ou como síntese de contidos de carácter teórico ou práctico.
Collaborative learning	Conxunto de procedementos de ensino-aprendizaxe guiados de forma presencial e/ou apoiados con tecnoloxías da información e as comunicacións, que se basean na organización da clase en pequenos grupos nos que o alumnado traballa conxuntamente na resolución de tarefas asignadas polo profesorado para optimizar a súa propia aprendizaxe e a dos outros membros do grupo.
Directed discussion	Técnica de dinámica de grupos na que os membros dun grupo discuten de forma libre, informal e espontánea sobre un tema, aínda que poden estar coordinados por un moderador.
Research (Research project)	Traballo extenso, realizado en grupo sobre un contido da materia.
Oral presentation	Exposición na aula do Proxecto de investigación.
Introductory activities	Actividades de evaluación inicial para comprobar os coñecementos previos dos estudantes.

Personalized attention

Methodologies

Research (Research project)

Introductory activities

Collaborative learning

Directed discussion

Oral presentation

Description

La atención personalizada se describe en torno a estas metodologías como momentos de trabajo presencial con el profesor por lo que se pide una participación obligatoria del alumno.
La forma y el momento en que se desarrollan se indicarán en relación a cada actividad a lo largo del curso según el plan de trabajo de la materia.

Assessment

Methodologies	Competencies	Description	Qualification
Research (Research project)	A3 A4 A5 A6 A7 A16 A17 A18 B6 B8 B9 B10 B11 C3 C5 C8	Valorarase a metodoloxía, os resultados, a argumentación, as conclusións e a dificultade do tema elexido.	55
Collaborative learning	A8 A9 A13 A17 B2 B3 B8 B9 B12 C7	Valorarase as comunicacións e a intervención na aula como o traballo diario e recollido na aula.	30
Oral presentation	A8 B3 B4 B6 B7 B8 B9 B13 C1 C2	Valorarase a clararidade, a habilidade para presentar a información e a comunicación de resultados e conclusións.	15

Assessment comments
A asistencia ás clases presenciais é obrigatoria. Se ou estudante non chega a unha asistencia do 80% das clases presenciais será avaliado: por unha proba individual (exame) que será un 50% da cualificación, e un traballo de investigación individual que será un 50% da cualifiación final. Tendo en conta que a cualificación mínima para que estas dúas partes compute na cualificación final sexa de 5.

Sources of information

Basic	Godino, J.D. (2013). Actividades de iniciación a la investigación en Educación Matemática.. Uno. Revista de Didáctica de la Matemática, 63, 69-76. Castro Martínez, E.; Olmo Romero, Mª A.; Castro Martínez, E. (2002). Desarrollo del pensamiento matemático infantil. Departamento de Didáctica de la Matemática. Universidad de Granada, Granada. Sivianes Valdecantos, S. (2009). El trabajo por proyectos y las matemáticas.. Números, 72, 75-80. Burghes, D. (Editor) (2012). Enhancing primary mathematics teaching and learning.. CfBT Education Trust. Plymouth, Uk. Santos-Trigo, M. (2009). Innovación e investigación en Educación Matemática.. Innovación Educativa, vol.9, núm. 46, 5-13. León Gómez, N.A. (2006). ¿Qué tan innovadores somos en Educación Matemática?. Números, 63, 49-57.
	Se complementará a bibliografía ao longo do curso.
Complementary

Recommendations

Subjects that it is recommended to have taken before

Subjects that are recommended to be taken simultaneously

Subjects that continue the syllabus

Other comments

(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation.