Master’s Degree in Educational Neuropsychology (Online)

Objectives

When discussing educational neuropsychology, it is essential to examine various aspects and cognitive skills that have a significant impact on a child’s development and learning ability.

In this module, you are expected to acquire the basic knowledge to understand what executive functions and attention consist of, what neural correlates we can identify, which learning, behavioural and developmental problems are related to these abilities, and why they are important cognitive functions in an educational context.

Conceptual objectives:

-To be able to appreciate the importance of understanding the development of attention and executive functions.

-To understand the importance of having an in-depth understanding of neuropsychological development throughout students’ lives.

-To establish the foundations of real neuroscience as the backbone of positive neuro-educational teaching.

-To establish the foundations of real neuroscience as the backbone of positive neuro-educational teaching.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK0. Identifies the different parts of the nervous system by applying the imaging techniques used in its study to define the functionality of each part in relation to cognition.

RK1. Defines the specific cognitive characteristics of psychosocial development, enabling the establishment of guidelines for actions aimed at improving the management of this type of student from various perspectives within the classroom and in relation to families.

RK2. Learns about brain development and the functional blocks underpinning neurodevelopment in children and adolescents to understand the biological basis of developmental psychology.

RK4. Recognises the neuropsychological processes associated with attention from the perspective of higher cognitive processes in general and executive functions in particular, in order to assess situations where these are affected.

Skill:

RS4. Apply observation guidelines and resources to identify the specific needs of pupils with attention deficit hyperactivity disorder and provide educational solutions to the problems of this nature identified in the teaching-learning process.

RS2. Selects observation guidelines and resources to identify students’ specific needs.

RS3. Applies thinking strategies defined by cognitive science within the teaching-learning process.

RS14. Resolves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RC2. Analyses the characteristics of Attention Deficit Hyperactivity Disorder in relation to higher cognitive processes to establish guidelines for improvement in the classroom and within families.

RC7. Develops work plans that promote the cognitive management of executive functions through neuroeducation to transform the educational process into a neuroeducational one.

RC0. Links higher cognitive processes with brain function, whilst being able to distinguish the various neuromyths associated with neuroscience.

RC10. Analyses case studies and practical experiences of applying neuropsychological skills related to reading, writing and mathematical learning, in order to develop specific plans and activities for these areas in school practice.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into specific teaching activities, thereby being able to design appropriate intervention strategies.

Description of the content

· The neuropsychological process of attention.

· Neuropsychological processes of executive functions.

· Neuropsychological assessment measures and instruments, and observation guidelines.

· Relationship between executive functions and the study of curriculum content, and application in the classroom.

· Programmes to improve attention and executive functions.

· Experiences and research on the application of Educational Neuropsychology in this field.

Training activities

STUDENT INDEPENDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The activities are as follows and together constitute a portfolio for the course, as they are conceptually interlinked:

- Forum (10%).

- Project 1 (15%)

- Project 2 (20%)

- Final self-assessment test (5% of the mark).

SITTING

•The final exam for the course will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

This module teaches students to define the foundations of neuropsychology based on basic biology and established findings in neuroscience, in order to understand how this knowledge impacts psychology. To this end, the course covers the biological foundations of the nervous system—both neuroanatomical and neurobiochemical—as well as the biological (developmental milestones) and social foundations of development during childhood and adolescence.

Conceptual objectives:

-To enable you to appreciate the importance of understanding the anatomy and function of the nervous system as the cornerstone of neuroscience.

-To understand the importance of having an in-depth understanding of neuropsychological development throughout students’ lives.

-To establish the foundations of real neuroscience as the backbone of positive neuroeducational teaching.

To achieve the objectives of this course, we need you to participate in classes, in the proposed discussions and in the activities we suggest, as this will ensure a more comprehensive and enriching learning experience.

We do not want passive students who simply receive and process information; we want students with opinions who are eager to learn and contribute different perspectives.

Prerequisites

No prior requirements have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK0. Identifies the different parts of the nervous system by applying the imaging techniques used in its study to define the functionality of each part in relation to cognition.

RK2. Learns about brain development and the functional blocks that underpin neurodevelopment in children and adolescents to understand the biological basis of developmental psychology.

Skills:

RS2. Selects observation guidelines and resources to identify students’ specific needs.

RS3. Applies the thinking strategies defined by cognitive science within the teaching-learning process.

RS14. Solve problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RODS. Develops effective communication, teamwork, analytical thinking, creativity and ethical leadership from a cross-disciplinary perspective, clearly inspired by democratic principles and values, as well as the Sustainable Development Goals, in order to operate with integrity in a professional environment.

RC1. Designs neurodidactic interventions that transform the educational process into a neuroeducational one.

RC5. Derives the necessary information from the biological milestones of cognitive development to design specific interventions for students.

RC13. Designs research processes with a neuroscientific focus, using different methodological approaches.

RC15. Establishes, from a scientific perspective, pedagogical relationships between neuroscientific aspects related to brain function, moving away from neuromyths, in order to create educational activities based on genuine neuropedagogy.

Description of the content

· The nervous system, its development and relationship with cognition and emotion.

· The brain, brain functions and brain plasticity affecting learning.

· Characteristics of neuropsychological development in childhood and changes during adolescence.

· Neuropsychological assessment tools and observation guidelines applicable during the school years.

· Experiences and research on the application of Educational Neuropsychology.

· Resources and sources of information.

Training activities

INDEPENDENT STUDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Activity 1 (10 hours)

Initial exercise applying basic theoretical and methodological content. This allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This may be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in the previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The activities are as follows and together constitute a portfolio for the course, as they are conceptually interlinked:

- Activity 1 (10%)

- Project 1 (15%)

- Project 2 (20%)

- Final self-assessment test (5% of the mark).

SPECIAL EXAMINATION SESSION

•The final exam for the course will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

This module explores the neurobiological basis of memory and the different types of memory, as well as the teaching strategies best suited to fostering memory according to neuroscience. It also examines how the various systems and processes involved in storing and retrieving memories can be affected, and what the consequences of their deterioration might be. Based on an understanding of how memory and information processing function across different stages and phases, students learn how to develop various strategies that facilitate and enhance processes such as the acquisition or retrieval of information.

Conceptual objectives:

-To appreciate the importance of understanding how different memory systems work and their relationship with information processing.

-To recognise the need for an in-depth understanding of the different stages of the cognitive processes that underpin learning and memory systems, as well as the various information processing strategies involved in higher-order skills.

-To assimilate the essential concepts that will enable you to apply your knowledge of how memory and higher-order skills function to the educational setting.

Prerequisites

No prior requirements have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK3. Neurobiologically identify the concept of memory and the existing types of memory for application within the students’ learning process.

RK2. Learns about brain development and the functional blocks that underpin neurodevelopment in children and adolescents in order to understand the biological basis of developmental psychology.

Skills:

RS3. Applies the thinking strategies defined by cognitive science within the teaching-learning process.

RS14. Solves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RC0. Links higher cognitive processes with brain function, whilst being able to distinguish between the various neuromyths associated with neuroscience.

RC1. Designs neurodidactic activities that transform the educational process into a neuroeducational one.

RC6. Plans learning situations, drawing on knowledge of cognitive processes related to memory in order to facilitate its acquisition.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into specific teaching activities, thereby being able to design appropriate intervention strategies.

Description of the content

· Neuropsychological processes of memory and its types.

· Neuropsychological processes of higher-order thinking skills and strategies.

· The relationship between memory and higher-order skills and the study of content across curricular areas, and the application of neurodidactics.

· Neuropsychological assessment tools and guidelines for observing memory and skills, applicable during the school years.

· Programmes to improve memory and higher-order skills.

· Experiences and research on the application of Educational Neuropsychology.

· Resources and information sources for teachers and for advising families.

Training activities

STUDENT INDEPENDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The activities are as follows and together constitute a portfolio for the course, as they are conceptually interlinked:

- Forum (10%).

- Project 1 (15%)

- Project 2 (20%)

- Final self-assessment test (5% of the mark).

SITTING

•The final exam for the course will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

This module covers the neurological foundations of language, the components involved in oral comprehension, and the different stages of typical language development.

In addition, students will examine various language disorders and the basic methods for assessing them, gaining an understanding of the different forms of intervention by the end of the course and having the opportunity to explore this topic within the most recent scientific literature in order to share this knowledge in the classroom.

Conceptual objectives:

-To develop a comprehensive understanding that incorporates knowledge of the anatomical, developmental, psychological and environmental factors involved in communication disorders.

-To familiarise you with the various language disorders and the factors involved in them.

-To learn the different ways of intervening in this area from a multidisciplinary approach.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK1. Defines the specific cognitive characteristics of psychosocial development, enabling the establishment of guidelines for actions aimed at improving the management of this type of student from various perspectives within the classroom and in relation to families.

RK6. Identifies the neuropsychological processes underlying language and communication disorders, thereby enabling an understanding of the reality within the classroom across this range of possible situations.

Skills:

RS1. Selects observation guidelines and neuropsychological assessment tools to detect possible cognitive dysfunctions relating to language and communication.

RS6. Provides resources for teachers and families with children experiencing such difficulties and disorders, thereby facilitating understanding with the guidance team.

RS14. Resolves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RODS. Develops effective communication, teamwork, analytical thinking, creativity and ethical leadership from a cross-disciplinary perspective, clearly inspired by democratic principles and values, as well as the Sustainable Development Goals, in order to conduct oneself with integrity in a professional environment.

RC4. Develops neuro-educational activities, both group-based and personalised, adapted to the diversity of students and their specific educational support needs in relation to their cognitive processes.

RC9. Analyses case studies to propose applications in coordination with relevant support teams and counsellors.

RC10. Analyses case studies and experiences of applying neuropsychological skills related to reading, writing and mathematical learning in order to develop specific plans and activities for these areas in school practice.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into specific teaching activities, in order to be able to design appropriate intervention strategies.

Description of the content

· Neuropsychological processes of language and communication disorders.

· Neuropsychological bases of oral comprehension, phonological, syntactic and semantic disorders.

· Neuropsychological bases of oral production and expression and their disorders.

· Neuropsychological assessment tools for language and disorders. Programmes and resources for language improvement and those specifically designed for

.

· Experiences and research on the application of Educational Neuropsychology in this field.

· Resources and information sources for teachers and for advising families.

Training activities

INDEPENDENT STUDENT WORK

This is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The activities are as follows and together constitute a portfolio for the course, as they are conceptually interlinked:

- Forum (10% of the mark).

- Project 1 (10%)

- Project 2 (30%)

- Final self-assessment test (5% of the mark).

SITTING

•The final exam for the course will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

This module examines the development of visual and auditory perception, key sensory functions that enable the brain to process verbal and written information effectively. In addition, we will study sensorimotor development, motor processes and the brain areas involved in the acquisition of writing and the development of both motor and cerebral laterality.

Students will learn to recognise warning signs to identify pupils with possible difficulties in these areas, so that appropriate referrals can be made, bearing in mind that the early years of life are crucial for the development of neural processes and that timely intervention ensures a better prognosis.

Conceptual objectives:

-To enable you to appreciate the importance of understanding human motor development and its direct influence on learning.

-To understand the importance of having an in-depth understanding of neuropsychological development throughout students’ lives.

-To establish the foundations of neuroscience as the backbone of positive neuro-educational teaching.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK5. Identifies the perception and functionality of vision and hearing in relation to the cognitive processes of reading and writing to establish their connection with motor skills.

Skills:

RS0. Defines the relationship between laterality, the acquisition of motor skills and the development of learning.

RS5. Relates the perception and function of vision and hearing to brain processes in order to create teaching situations that promote the proper development of literacy.

RS14. Resolves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RC8. Identifies the tools required to develop observation and intervention guidelines for educational processes requiring educational support in vision and hearing, with the aim of analysing them and creating educational solutions to problems of this nature detected in the teaching-learning process.

RC13. Analyses specific needs according to the type of student, from identifying and defining these needs to translating them into specific teaching activities, thereby being able to design appropriate intervention strategies.

Description of the content

· Visual perception, the visual system, its development and relationship with reading, writing and performance.

· Auditory perception, the auditory system and its relationship with language and learning.

· Motor processes and skills, coordination and balance for writing.

· Development of laterality and spatio-temporal awareness in relation to mathematical learning.

· Neuropsychological assessment tools and observation guidelines applicable in early childhood and primary school, as well as for learning difficulties.

· Experiences and research on the application of programmes for perceptual and motor neuropsychological skills.

· Resources and sources of information for teachers and guidance for families on this topic.

Training activities

STUDENT INDEPENDENT WORK

This is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in the previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the course will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The activities are as follows and together constitute a portfolio for the course, as they are conceptually interlinked:

- Forum (10% of the mark).

- Project 1 (15%)

- Project 2 (20%)

- Final self-assessment test (5% of the mark).

SITTING

•The final exam for the module will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Bibliography

Basic:

1.- IRENE PELLICER ROYO

NEUROEF: PHYSICAL REVOLUTION FROM NEUROSCIENCE

Inde. 2015.

ISBN: 9788497293501

2.- Rudy José Nodari

The Science of Human Motricity

Nova Science Publishers Inc. 2022.

ISBN: 978-168507431

3.- Sagrario del Valle

Perceptual-motor model

Onporsport S.L.. 2014.

ISBN: 978-84-940254

Supplementary:

4.- Francisco Alarcón López

Neuroscience, Sport and Education

WANCEULEN. 2018.

ISBN: 978-849993847

Others:

5.- Vicki Bruce, Mark A. Georgeson & Patrick R. Green

Visual Perception: Physiology, Psychology and Ecology

Psychology Press. 2003.

ISBN: 9781841692371

Objectives

In this module, you will learn what two of the most important cognitive functions are and how they relate to one another: perception and attention. You will also learn what we mean by neural plasticity and how this mechanism of the nervous system relates to the cognitive processes that a person engages in to tackle such important everyday tasks as acquiring new knowledge or forming memories.

Conceptual objectives:

-To enable you to understand how perception functions as a fundamental mechanism for interacting with the world and for learning.

-To understand the importance of attention as a fundamental process in our daily lives, but particularly in an educational context.

-To understand the basic neuroscientific principles linked to learning, such as neural plasticity.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Competencies

Analyses the relationship between perception and the attentional process in order to design neuroeducational interventions that successfully integrate both phases.

Learning outcomes

Knowledge:

Understands the characteristics associated with the human perceptual process in order to identify basic brain function in relation to the functioning of the senses.

Skills:

Classifies the various higher cognitive processes in order to study their specific functions.

Description of the content

· Perception as a process.

· Attention: definition and attentional processes.

· Attention: explanatory models, biological bases, maturation and attentional tasks.

· Neural plasticity.

Learning activities

INDEPENDENT STUDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-cutting and specific skills.

-Forum (15 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (20 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This may be carried out in groups or individually with minimal supervision from teaching staff.

-Self-assessment test (3 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (28 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study to support the learning process and preparation for the final exam.

SESSIONS

• Interactive classes: 8 hours

• Asynchronous lectures: 15 hours

• Project work and problem-solving: 7 hours

• Knowledge tests: 3 hours

ACADEMIC CONSULTATIONS

5 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your performance in continuous assessment (assessed activities).

The assessed activities are as follows:

- Forum (15% of the mark).

- Project 2 (25%)

- Final self-assessment test (10% of the mark).

SITTING

•The final exam for the module will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

The aim of this course is to provide the essential foundations for understanding the field of developmental psychology, which focuses on exploring the biological, psychological and social influences on human development. Throughout this course, the different stages that make up the human life cycle will be explained in detail, as well as the most significant events that characterise each of these stages.

Evolutionary psychology is a discipline that seeks to unravel the processes of development and change throughout a person’s life, from childhood to old age. By studying this subject, students gain a deeper understanding of how biological, psychological and social factors interact to shape the course of human life.

Conceptual objectives:

-To enable you to appreciate the importance of understanding human development and evolutionary psychology

-To understand the importance of having an in-depth understanding of the factors that influence human development throughout the life span.

-To establish the foundations of neuroscience as the backbone of human development.

Prerequisites

No prerequisites have been established, except for those described in current legislation governing access to postgraduate studies.

Competencies

Analyses the social environments in which development occurs during childhood, adolescence, adulthood and old age in order to design the most appropriate neuro-educational interventions in each case.

Learning outcomes

Knowledge:

- Understands and describes basic concepts of developmental psychology in order to identify situations that deviate from the norm.

Skills:

- Understands the importance of family relationships in the early stages of life for healthy psychological development.

Course description

· Neurodevelopment. Long-term synapses.

· Psychological development during the prenatal period and childhood.

· Psychological development in adolescence.

· Psychological development and adulthood

Learning activities

INDEPENDENT STUDENT WORK

This is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-cutting and specific skills.

-Forum (15 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (20 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Self-assessment test (3 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (28 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

SESSIONS

• Interactive classes: 8 hours

• Asynchronous lectures: 15 hours

• Project work and problem-solving: 7 hours

• Knowledge tests: 3 hours

ACADEMIC CONSULTATIONS

5 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your performance in continuous assessment (assessed activities).

The assessed activities are as follows:

- Forum (15% of the mark).

- Project 2 (25%)

- Final self-assessment test (10% of the mark).

SITTING

•The final exam for the module will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

This module teaches students how to identify, assess and intervene in the main specific learning disorders. To this end, the course examines the biological underpinnings of dyslexia, dysgraphia and dyscalculia. It also covers the neuropsychological assessment tools used and recommendations regarding treatment and rehabilitation.

Conceptual objectives:

-To enable you to identify and diagnose specific learning disorders.

-To be able to carry out neuropsychological assessments.

-To understand each disorder and each patient in order to develop an individualised intervention plan.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK1. Defines the specific cognitive characteristics of psychosocial development, enabling the establishment of guidelines for actions aimed at improving the management of this type of student from various perspectives within the classroom and in relation to families.

RK7. Knows and understands the neuropsychological processes of reading, writing and mathematical learning in order to identify the basis of the processes underlying dyslexia, dysgraphia and dyscalculia.

Skills:

RS7. Applies observation guidelines and neuropsychological assessment tools to detect difficulties and disorders in reading, writing and mathematical learning.

RS14. Resolves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RC3. Analyses tools for measuring cognitive efficiency in relation to reading, writing and arithmetic, with the aim of transforming the educational process into a neuro-educational one

RC4. Develops both group-based and personalised neuro-educational interventions, adapted to the diversity of students and their specific educational support needs in relation to their cognitive processes.

RC10. Analyses case studies and practical experiences of applying neuropsychological skills related to reading, writing and mathematical learning in order to develop specific plans and activities for these areas in school practice.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into specific teaching activities, in order to be able to design appropriate intervention strategies.

Description of the content

· Neuropsychological processes of reading, writing and mathematical learning.

· Neuropsychological processes and characteristics of dyslexia, dysgraphia and dyscalculia.

· Neuropsychological assessment tools for difficulties and disorders in reading, writing and mathematical learning.

· Programmes and resources related to dyslexia, dysgraphia and dyscalculia.

· Experiences and research on the application of Educational Neuropsychology in this field.

· Resources and information sources for teachers and for advising families

Training activities

INDEPENDENT STUDENT WORK

This is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This may be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The assessed activities are as follows:

- Forum (10%).

- Project 1 (15%)

- Project 2 (20%)

- Final self-assessment test (5% of the mark).

SPECIAL EXAMINATION SESSION

•The final exam for the course will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

Throughout this course, students will gain an in-depth understanding of autism spectrum disorders from a neuropsychological perspective applied to clinical and educational practice. It begins with an introduction to the conceptualisation of ASD, its neuropsychological foundations, and an understanding of the processes involved and the associated symptoms. The third and fourth units are designed to provide the knowledge and strategies necessary to plan and carry out the assessment process for individuals suspected of having ASD. Finally, the last two units aim to lay the foundations for planning an intervention and to equip students with the tools to do so.

Conceptual objectives:

-To enable you to understand the neuropsychological and developmental foundations of autism spectrum disorder so that you can make informed decisions regarding the assessment and intervention with these individuals.

-To enable you to apply a rigorous assessment model grounded in a thorough understanding of ASD and to make use of the resources provided in the teaching units.

-To learn how to develop an intervention plan based on the assessment carried out and to master the strategies for neuropsychological and educational intervention to meet the needs of these individuals.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK9. Identifies the main methods of information retrieval in relation to neuroscience applied to education, thereby maintaining an up-to-date profile that directly impacts their scientific competence. 

Skills:

RS0. Defines the relationship between lateralisation, the acquisition of motor skills and the development of learning.

RS1. Selects observation guidelines and neuropsychological assessment tools to detect possible cognitive dysfunctions relating to language and communication.

RS10. Analyses the specific needs of students in order to address them through specific neurodidactic interventions within educational and psychoeducational settings.

RS14. Resolves problems that may arise in the educational context from a neuroscientific perspective.

Competencies:

RODS. Develops effective communication, teamwork, analytical thinking, creativity and ethical leadership from a cross-disciplinary perspective, clearly inspired by democratic principles and values, as well as the Sustainable Development Goals, in order to operate with integrity in a professional environment.

RC0. Links higher cognitive processes with brain function, being able to distinguish the various neuromyths associated with neuroscience.

RC1. Designs neurodidactic activities that transform the educational process into a neuroeducational one.

RC10. Analyses case studies and practical experiences of applying neuropsychological skills related to reading, writing and mathematical learning, in order to develop specific plans and activities for these topics in school practice.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into specific teaching activities, thereby being able to design appropriate intervention strategies.

RC16. Produces a structured and rigorous written account of the observation or recording process followed and the conclusions reached based on the analysis of the information gathered.

Description of the content

· Current conceptualisation and neuropsychological processes of Autism Spectrum Disorder.

· Characteristics of autism and its relationship with learning and behaviour.

· Neuropsychological assessment tools and observation guidelines.

· Neuropsychological and technological programmes to improve this type of disorder.

· Studies and experiences with students with Autism Spectrum Disorder.

· Resources for teachers and guidance for families with children who have this disorder

Training activities

INDEPENDENT STUDENT WORK

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. This allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from the teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in previous tasks. It is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-cutting and specific skills.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

STUDENT INDEPENDENT WORK

-Forum (10% of the final mark, 10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15% of the final mark, 15 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This may be carried out in groups or individually with minimal supervision from the teaching staff.

-Project 2 (20% of the final mark, 20 hours)

An activity integrating the learning acquired in the previous tasks. It is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-cutting and specific skills.

-Self-assessment test (5% of the final mark, 6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

-In-person final exam (3 hours)

Comprehensive assessment of the extent to which the course competencies have been acquired. It is held during the regular and supplementary examination periods, in accordance with current regulations.

SESSIONS

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

Assessment system and criteria

STUDENT INDEPENDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-cutting and specific skills.

-Forum (10 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (15 hours)

Development of an intermediate practical case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Project 2 (20 hours)

An activity integrating the learning acquired in previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (40 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

To search for, analyse and utilise up-to-date information on advances in educational neuropsychology in order to produce a theoretical and/or practical research project demonstrating the acquisition of skills, knowledge and aptitudes, whilst exhibiting appropriate critical thinking.

The Master’s Thesis must be original and unpublished and must be carried out individually or in a group, under the supervision and guidance of the relevant supervisor or academic tutor. In both cases, the defence and assessment of the thesis will be conducted individually.

Prerequisites

In order to defend the Master’s Thesis before an assessment panel, the student must have passed the 54 credits relating to the modules and external placements of the programme.

Furthermore, they must have received approval from their supervisor, who must consider that their thesis has followed the necessary guidelines to be defended and to complete the postgraduate programme.

Learning outcomes

Skill:

RS11. Applies the content learnt in the modules and external placements regarding the neuroscientific basis of education to the creation of a research project in the natural sciences or an action-research project in neuroeducational intervention under the supervision and guidance of a lecturer.

RS12. Applies the methods of using the main search engines to research topics of interest within the Master’s programme in order to select the information required for their professional development.

RS13. Designs research processes with a neuroscientific focus, using different methodological approaches.

RS14. Solves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RODS. Develops effective communication, teamwork, analytical thinking, creativity and ethical leadership from a cross-disciplinary perspective, clearly inspired by democratic principles and values, as well as the Sustainable Development Goals, in order to operate with integrity in a professional environment.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into concrete teaching activities, thereby being able to design appropriate intervention strategies.

RC16. Produces a structured and rigorous written account of the observation or recording process followed and the conclusions reached based on the analysis of the information gathered.

RC17. Correctly formulates research questions and develops the corresponding hypotheses in the research design.

RC18. Designs a research project that encompasses the necessary requirements in terms of practical qualitative and quantitative research skills for the development of the literature review, the setting of objectives, experimental research and/or the development of the intervention programme and action plan, which will be defended through a public oral presentation before a qualified assessment panel

Description of the content

The Master’s Thesis (TFM) consists of the application of the content learnt in the theoretical-practical modules and external placements of the course. In the MTh, the student must demonstrate that they have carried out the entire process characteristic of a neuropsychological intervention project under the supervision of a tutor who will direct their work. They must submit a high-quality piece of work that meets the necessary requirements for a literature review, the setting of objectives, the planning of the intervention and the action plan, which will be defended through a public oral presentation before a qualified assessment panel.

The Master’s Thesis must be original and unpublished and must be carried out individually or in a group, under the supervision and guidance of the relevant academic supervisor. In both cases, the defence and assessment of the thesis will be conducted individually.

Training activities

A Master’s Thesis supervisor is assigned at the start of the second semester.

- Interactive classes (synchronous) 5 hours

- Online tutorials (synchronous/asynchronous) 9 hours

- Preparation of the Master’s Thesis (independent work) 134 hours

- Public oral defence of the Master’s thesis (synchronous or face-to-face) 2 hours

Assessment system and criteria

- Master’s thesis: 70% of the mark

- Defence before an assessment panel: 30% of the mark.

Objectives

In this module, students will learn to define the scientific method, the different types of research, how to select a sample, how to approach a theoretical study and how to approach a practical study. The module will also cover the formulation and testing of hypotheses, as well as the basics of statistics.

Conceptual objectives:

-To enable you to appreciate the importance of selecting appropriate theoretical material for study when undertaking research.

-To understand the importance of having an in-depth knowledge of the different types of research that exist.

-To consolidate basic statistical concepts.

-To learn how to define hypotheses.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Learning outcomes

Knowledge:

RK11. Clearly identifies research methodologies and techniques in neuroeducation in relation to the paradigm within which they are situated.

Skills:

RS9. Uses information-search tools efficiently to construct sound theoretical frameworks in natural and social sciences research.

RS13. Designs research processes with a neuroscientific focus, employing different methodological approaches

RS14. Solves problems that may arise in the educational context from a neuroscientific perspective.

Competence:

RODS. Develops effective communication, teamwork, analytical thinking, creativity and ethical leadership from a cross-disciplinary perspective, clearly inspired by democratic principles and values, as well as the Sustainable Development Goals, in order to operate with integrity in a professional environment.

RC0. Links higher cognitive processes with brain function, being able to distinguish the various neuromyths associated with neuroscience

RC1. Designs neurodidactic activities that transform the educational process into a neuroeducational one.

RC12. Identifies the different types of research in psychological and educational social sciences, thereby being able to design research projects by setting reasonable objectives based on the problem, time and available resources.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into concrete teaching activities, thereby being able to design appropriate intervention strategies.

RC14. Identifies basic avenues of research that can be pursued within their professional context in educational and psychoeducational settings.

RC17. Correctly formulates research problems and formulates the corresponding hypotheses in the research design.

Description of the content

· Conceptualisation of the definition of natural science and social science. Definition of the scientific method.

· Imaging techniques used in neuroscience.

· Types of research in applied social sciences. ·

· Qualitative research. Search engines and databases. Reliability. · Qualitative-quantitative research, action research, case study.

· Sampling.

· Practical research: designing objectives.

· Bioethics and neuroscience.

Training activities

INDEPENDENT STUDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-cutting and specific skills.

-Activity 1 (15 hours)

Initial exercise applying basic theoretical and methodological content. This allows students to test their understanding and receive early feedback.

-Activity 2 (15 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Activity 3 (15 hours)

An activity integrating the learning acquired in the previous tasks.

-Self-assessment test (6 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (35 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

TRAINING ACTIVITIES

• Interactive classes: 12 hours

• Oral presentations, discussions, debates: 6 hours

• Knowledge tests: 3 hours

• Asynchronous lectures: 15 hours

• Case studies and projects: 10 hours

• Critical analysis sessions: 6 hours

ACADEMIC CONSULTATIONS

7 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your continuous assessment (assessed activities).

The activities are as follows and together constitute a portfolio for the course, as they are conceptually interlinked:

- Activity 1 (15% of the mark).

- Activity 2 (15% of the mark)

- Activity 3 (15% of the mark)

- Final self-assessment test (5% of the mark).

SITTING

•The final exam for the module will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

Work placement is essential for students to develop their skills in a professional setting. It enables them to apply their knowledge and learn more about the field in which they have chosen to specialise.

The main aim of the work placement is for students to gain, under the guidance and supervision of a mentor at the placement location, practical experience that relates directly to the teaching received in various modules of the Master’s programme.

Prerequisites

To undertake the external placement, it is an essential requirement to have enrolled in all modules.

Learning outcomes

Knowledge:

RK9. Identifies the main methods of information retrieval in relation to neuroscience applied to education, thereby maintaining an up-to-date profile that directly impacts their scientific competence.

Skills:

RS0. Defines the relationship between lateralisation, the acquisition of motor skills and the development of learning.

RS1. Selects observation guidelines and neuropsychological assessment tools to detect possible cognitive dysfunctions relating to language and communication.

RS10. Analyses the specific needs of students in order to address them through specific neurodidactic interventions within educational and psychoeducational settings.

RS14 Solves problems that may arise in the educational context from a neuroscientific perspective.

Competence

RODS. Develops effective communication, teamwork, analytical thinking, creativity and ethical leadership from a cross-disciplinary perspective, clearly inspired by democratic principles and values, as well as the Sustainable Development Goals, in order to operate with integrity in a professional environment.

RC0. Links higher cognitive processes with brain function, being able to distinguish the various neuromyths associated with neuroscience.

RC1. Designs neurodidactic activities that transform the educational process into a neuroeducational one.

RC10 Analyses case studies and practical experiences of applying neuropsychological skills related to reading, writing and mathematical learning, in order to develop specific plans and activities for these topics in school practice.

RC13. Analyses specific needs according to the type of student, from defining and specifying these needs to translating them into specific teaching activities, thereby being able to design appropriate intervention strategies.

RC16 Produces a structured and rigorous written account of the observation or recording process followed and the conclusions reached based on the analysis of the information gathered.

Description of the content

Undertake a period of supervised practical training in an educational institution, a psycho-educational centre, or an organisation and/or foundation, based on the observation of difficulties and disorders grounded in professional observation and neuro-educational and/or neuro-psychosocial intervention associated with the design of a neuro-educational response.

Training activities

-Lecture sessions (asynchronous): 2 hours

-Independent study, case or problem solving, literature reviews (self-directed work) 28 hours

-Virtual tutoring (synchronous/asynchronous): 5 hours

-External placements (face-to-face): 115 hours

Assessment system and criteria

• Internship Centre assessment (30%)

• Interim placement report (30%)

• Submission of final report (40%)

Objectives

This section analyses the impact of brain function on the learning process, as well as its influence on educational challenges. It also examines the development of various cognitive processes and their fundamental characteristics

, and addresses the most common neurodevelopmental disorders and the learning difficulties they cause, highlighting the crucial importance of early intervention in optimising a child’s full developmental potential.

Conceptual objectives:

- To understand neurodevelopmental disorders from a neurobiological and psychopedagogical perspective, analysing their clinical manifestations and their impact on learning and socialisation in the educational context.

- To identify and differentiate the specific educational support needs (SEN) associated with Autism Spectrum Disorders (ASD), Attention Deficit Hyperactivity Disorder (ADHD), Borderline Intelligence (BI) and High Abilities (HA), in order to design inclusive and effective teaching strategies.

- Explore the neuro-social foundations of learning, understanding the interaction between neurobiological factors and the social environment in the construction of knowledge and in the school adaptation of students with functional diversity.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Competencies

Analyses the cognitive characteristics of students with SEN in order to apply this knowledge to the optimisation of each teaching-learning process.

Learning outcomes

Knowledge:

- Understand what neurodevelopmental disorders entail in order to contextualise what actually happens in the classroom

- Know how to use activities tailored to the specific educational support needs identified, thereby encouraging participation in various learning situations.

Skills:

- Analyse the cognitive characteristics of pupils with SEN in order to apply this knowledge to optimising each teaching and learning process.

Course content

· Neurodevelopmental disorders.

· Attention to diversity and learning difficulties.

· Neuro-social bases associated with Autism Spectrum Disorder (ASD), Attention Deficit Hyperactivity Disorder (ADHD), Borderline Intelligence (BI) and High Ability (HA).

· Socio-economic environment, exclusion and educational reality.

Training activities

INDEPENDENT STUDENT WORK

This is designed as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (15 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (20 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Self-assessment test (3 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (28 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study that underpin the learning process and preparation for the final exam.

SESSIONS

• Interactive classes: 8 hours

• Asynchronous lectures: 15 hours

• Project work and problem-solving: 7 hours

• Knowledge tests: 3 hours

ACADEMIC CONSULTATIONS

5 hours

Assessment system and criteria

REGULAR EXAM SESSION

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your performance in continuous assessment (assessed activities).

The assessed activities are as follows:

- Activity 1 (15% of the mark).

- Project 1 (25%)

- Final self-assessment test (10% of the mark).

SITTING

•The final exam for the module will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel

Objectives

This module explores the relationship between neuroscience and pedagogy as applied to teaching. Furthermore, the correlation between behaviourism and neuroscience, with a focus on the reward system and fear. Cognitivism is also addressed through the lens of neuroscience, highlighting the processes of reflection and memory. Finally, students learn about constructivism and neuroscience through social and inquiry-based learning.

Conceptual objectives:

- To be able to relate neuroscience to the various learning theories that give rise to neuropedagogy and neurodidactics in order to improve the teaching-learning process.

- To understand the importance of selecting an appropriate learning theory, taking into account the task, the students and their context.

- To learn about the guidelines and principles of Universal Design for Learning (UDL) to better cater for the neurodiversity of students.

Prerequisites

No prerequisites have been established, except for those described in current legislation regarding access to postgraduate studies.

Competencies

To identify the links between neuroscience and basic pedagogy in order to design educational protocols based on scientific evidence.

Learning outcomes

Knowledge:

-Understands how the main pedagogical approaches relate to neuroscience in order to comprehend the teaching-learning process in relation to brain function.

Skills:

-Selects specific guidelines supported by neuroscience in order to provide concrete educational solutions.

Course description

· Pedagogy and Didactics. Neurodidactics.

· Behaviourism and Neuroscience. Reward System. Fear.

· Cognitivism and neuroscience. Processes of reflection and memory.

· Constructivist approaches and neuroscience. Social and inquiry-based learning.

Training activities

INDEPENDENT STUDENT WORK

This is conceived as a reflective and applied portfolio, demonstrating the acquisition of cross-curricular and specific skills.

-Forum (15 hours)

Initial exercise applying basic theoretical and methodological content. It allows students to test their understanding and receive early feedback.

-Project 1 (20 hours)

Development of an intermediate case study in which concepts of analysis and synthesis are applied. This can be carried out in groups or individually with minimal supervision from teaching staff.

-Self-assessment test (3 hours)

A tool for metacognition and assessment of learning, designed to encourage student self-regulation.

-Independent study (28 hours, not directly weighted)

Includes preparatory activities, reading of academic materials and individual study to support the learning process and preparation for the final exam.

SESSIONS

• Interactive classes: 8 hours

• Asynchronous lectures: 15 hours

• Project work and problem-solving: 7 hours

• Knowledge tests: 3 hours

ACADEMIC CONSULTATIONS

5 hours

Assessment system and criteria

REGULAR EXAMINATION PERIOD

The assessment criteria are:

•The final multiple-choice exam for the module will account for: 50% of the final mark.

•The remaining 50% of the mark will be based on your performance in continuous assessment (assessed activities).

The assessed activities are as follows:

- Forum (15% of the mark).

- Project 2 (25%)

- Final self-assessment test (10% of the mark).

SITTING

•The final exam for the module will account for: 100% of the final mark.

It will be a mixed-format exam.

Timetable

Click on this link to view the detailed timetable in Excel