PhD Program

Students in the Educational Neuroscience Concentration Program are expected to fulfill all requirements of the Educational Psychology PhD Program. In addition, they are expected to complete the specialization courses and other relevant courses offered by other departments (e.g., human development, psychology, anthropology, and computer science). Learn more about the goals of the program, the curriculum, and the path to the comprehensive exams and dissertation.

PhD Program

OUR APPROACH

Research.
Scholarship.
Professionalism.

Scholars

Scholarship is promoted as students complete an intensive, curriculum meant to prepare them for their research and career goals.

Professionals

Graduates of our program are ready to tackle competitive post-doctoral appointments, industry jobs, and so much more.

From Lab to Classroom.
And Classroom to Lab.

The ultimate goal of educational neuroscience is to develop new approaches to investigate learning processes and interventions by incorporating methodologies and theoretical tools from brain and education sciences.

MORE ABOUT CLASSROOM & LAB EXPERIENCES

Educational neuroscience fills the gap between education and neuroscience, rather than being a bridge between the two. As such, while some of the efforts in educational neuroscience focus on interpreting findings from brain science studies for educational practice, the ultimate goal is to develop new approaches to investigate learning processes and interventions by incorporating methodologies and theoretical tools from brain and education sciences."

Educational neuroscience differs from cognitive neuroscience in that the purpose is not only to understand the brain mechanisms that underlie learning and cognition but also to develop learning interventions and to design learning environments based on what we know about learning processes across multiple levels (e.g., neural, cognitive, socio-cultural). Therefore, educational neuroscience research efforts involve behavioral and neuroimaging lab experiments, design of learning interventions, and investigations in authentic-contexts (e.g., classrooms). These three forms of activity are complementary and occur in a cyclical manner.

The idea for an educational neuroscience investigation can spark from observations in the classroom, from findings reported in the neuroscience literature, or from a learning design product. Whatever the source of the research idea is, a complete research project would typically involve multiple iterations of (in any order) controlled lab experiments to test ideas on cognitive / neural mechanisms involved, design of learning interventions, and design-based study of how these interventions are implemented in the classroom.

Multiple Levels. 
Diverse Methodologies.

Even though the name “educational neuroscience” implies an emphasis on neural level investigations, educational neuroscience is a transdisciplinary field that incorporates multiple levels of explanation and methodologies from both educational and brain science research.

MORE ABOUT METHODOLOGIES

The main goal is not to push for neural level explanations or neuroscience methodologies as alternatives to established paradigms in education. Instead, the goal is to explore how existing paradigms of educational research can be complemented with paradigms in brain sciences to provide multi-level explanations for how learning occurs, and how biological markers and the socio-cultural context contribute to learning outcomes. Educational neuroscience involves a rich mixture of qualitative, quantitative and design-based research methodologies.

An educational neuroscientist is not only interested in providing a cognitive and neural account of mechanisms involved in learning, but also how genetic dispositions, first-person experience, socio-cultural context and the societal norms and policies shape and interact with learning processes. In our program we give emphasis to embodied (grounded & enactive), ecological and dynamic systems approaches to cognition as theoretical scaffolds to connect the many levels involved in educational neuroscience research.

Knowledge. 
In 3 Core Competencies.

Our concentration program targets the development of skills and knowledge across three competencies: Research findings & theoretical perspectives; research methods; and computational tools for learning and research design.

MORE ABOUT ACQUIRED COMPETENCIES
  1. Research Findings and Theoretical Perspectives

    Students get familiar with the current landscape of brain sciences, educational psychology and learning sciences research and theoretical perspectives in a diverse range of domains, including numerical cognition, scientific thinking, reading, social development, language development, human-computer interaction and cognitive and developmental disorders. Students also study alternative theoretical approaches in brain sciences and education, for example embodied, situated and grounded approaches to cognition, and dynamic systems theory.

  2. Research Methods

    Educational neuroscience incorporates diverse research methodologies from various fields due to its transdisciplinary nature. In the concentration program students (1) survey neuroimaging, electrophysiological, psychophysiological, and behavioral methodologies, (2) discuss how these methodologies can be used in collaboration with qualitative and quantitative research approaches in education, and (3) acquire hands-on experiences in collecting and analyzing experimental data. Advanced graduate students are encouraged to pursue course projects that parallel, contribute to, or help them refine their dissertation study.

  3. Computational Tools for Learning and Research Design

    Competency in using computational tools is crucial both for learning and research design. Approaches like computational modeling, virtual / augmented reality, and tangible computing are used both in designing learning interventions as well as in experimental research design. Since educational neuroscience both involves designing learning interventions and developing novel ways of studying learning processes both in the lab and in classrooms, developing computational skills is imperative for students who are interested doing work in this area. This means not only the ability to use existing computational tools, but also the ability to tweak the existing tools or develop new tools for learning interventions and programs, research experiments, and data analysis. Students are not expected to have a programming or advanced technical background before they enroll in the program. However we expect students to invest considerable time and effort in developing their computational skills early in the program. We have a preference towards using open source and free software. This allows students to carry the skills they acquire in the courses to their future research projects without being concerned about software costs. See the resources section for a list of software used in courses.

PROGRAM OF STUDY & COURSEWORK

Program of Study

EDUCATIONAL NEUROSCIENCE CONCENTRATION PROGRAM OF STUDY

The tentative program of study below is provided to give a general idea to prospective students and current students about the course work involved in the educational neuroscience concentration. Each student's individual program of study is developed by the student with the advisor, considering each student's backgrounds, strengths, interests, and the type of research they consider for their eventual dissertation study. Please refer to the UA course catalog for details and alternative courses. As a reminder, the sequence below adheres to the requirements ONLY for the PhD in Educational Psychology with a concentration in Educational Neuroscience. 

*Current students, please click the (info) and (?) icons for information and FAQs respectively. To download a PDF version of this guide, click here.

Educational Psychology Core Courses9 credits beginning Fall 2020 (7 credits pre 2020)
BEP 500 Advanced Educational Psychology3 credits
BEP 600 Doctoral Pro-Seminar3 credits**
HD 500 Human Development OR HD 501 Child Development3 credits*

*The name of HD 501 Child Development changed to HD 500 Lifespan Human Development in 2018. This change does not affect students entering the program before Summer 2018.

**The total number of credits for the doctoral pro-seminar has increased from 1 to 3 in 2019. This change does not effect students who entered the program before Summer 2019.

Foundations of Educational Psychology Courses9 credits
(info icon) BEP 570 Foundations of Educational Neuroscience3 credits
(info icon) BEP 571 Computational Methods in Educational Neuroscience3 credits
BEP 5## Course (Student Choice)3 credits

NOTE: (? icon) Courses that satisfy this requirement are typically BEP 500 or HD 500 level courses.

Foundations Courses12 credits
(?) BEF Course Number (Student Choice)

Suggestions: BEF 503 History of American Education; BEF 504 Philosophy of Education; BEF 510 Philosophical, Historical, and Social Foundations of Education
3 credits
(?) BER 631 Qualitative Analysis 1 OR BEF 642 Philosophy of Science3 credits
(?) Foundations Course 3 (Student chooses course)3 credits
(?) Foundations Course 4 (Student chooses course)3 credits

NOTE: Students must take one BEF course of their choosing and either BER 631 or BEF 642. The remaining six credits in this category can be fulfilled by course in other departments, indicated by "Foundations Course #" above.

Specialization Courses (Educational Neuroscience)
BEP 670 Methods and Trends in Educational Neuroscience3 credits
BEP 6## Course (Student Choice)

Suggestion: BEP 600-Contemporary Educational Psychology Problems. This course is offered under multiple sections that differ by topic and instructor. See the "Specialization Courses" tab for a listing of available offerings or the COE Graduate Catalog.
3 credits
The PY courses below can be used to satisfy the remaining two courses needed in the "Specialization Courses" category. This list is not exhaustive. Consult with your advisor to choose courses that best prepare you for your dissertation topic (Source: Dr. Steve Thoma, May 2018).
PY 650 Cognition and Learning3 credits
PY 655 Cognitive Neuroscience of Aging3 credits

NOTE: Student chooses a combination of courses to meet the minimum credit requirement (12 credits). The above courses may be used to satisfy this requirement. This list is not exhaustive, and students are encouraged to work with their advisors to develop a suitable plan-of-study here.

Research Methods Courses12 credits
Quantitative Research 1

Suggestion: BER 540 Quantitative Research Methods
3 credits
Quantitative Research 2

Suggestion: BER 640 Quantitative Research Methods
3 credits
Research Course 3

Suggestion: BER 641 Multivariate Statistics OR BER 642 Advanced Regression Methods
3 credits
Research Course 4

Suggestion: BER 645 Advanced Experimental Design
3 credits
Research Course 5

Suggestion: BER 658 Psychometric Theory and Practice
3 credits

NOTE: 15 hours must be devoted to research courses of which 2 must be Quantitative Research Methods. These can include BER courses or courses in other departments that are research-method based. The list of courses above is a suggestion only.

(?) Coursework total:

57 credits for students beginning Fall 2020 (55 before 2020)

Relevant Courses

RELEVANT ED NEURO COURSES

Below is a sampling of courses offered by the Educational Psychology program and that are relevant to students concentrating in Educational Neuroscience. Required ed neuro courses are indicated. Course offerings change by semester and year, so check the official course catalog for updated information.

BEP 505: Motivation and Self Regulation

In this course, students investigate the development of self-regulatory processes and the match between those processes and educational practice. Transitions from home to school, elementary to secondary, and high school to college/work are considered in depth.

BEP 541: Foundations of the Learning Sciences

This course provides a foundation in the learning sciences and cognitive research, with a particular focus on educational settings.

BEP 561: Social and Cultural Basis of Behavior

Provides fundamental knowledge regarding the methods in which social and cultural interactions and histories influence human behavior. Focuses on application of social psychology principles and multicultural issues to increase awareness and improve skills across a variety of social settings, including schools and human-service agencies.

BEP 561: Personality and Social Development

Examines the major theories of personality and social-emotional factors as they impact on the learning process and educational practice. Writing proficiency is required for a passing grade in this course. A student who does not write with the skill normally required of an upper-division student will not earn a passing grade, no matter how well the student performs in other areas of the course.

BEP 570: Foundations of Educational Neuroscience

*Ed Neuro Requirement

This is an introductory course on Educational Neuroscience, an emerging area of research grounded in multiple disciplines including (but not limited to) educational psychology, neuroscience, cognitive science, and learning sciences. The purpose of this course is to provide an introduction to major issues and topics in these domains and discuss implications for educational research and practice.

BEP 571: Design of Computational Tools for Learning and Research

This course is a hands-on practicum in designing and building computational tools both for learning interventions and research studies. Topics covered include programming techniques for stimulus presentation and data analysis, agent-based modeling, 3D modeling, tangible computing, and interface design.

BEP 600: Contemporary Educational Problems and Educational Psychology (Developmental Cognitive Neuroscience)

Section option

Educational Neuroscience is an emerging area of research grounded in multiple disciplines including (but not limited to) education, psychology, neuroscience, and cognitive science. The purpose of this course is to explore major research trends and methodologies in educational neuroscience through readings and discussions, and hands-on data analysis activities.

BEP 600: Contemporary Educational Problems and Educational Psychology (Morality)

Section option

The human morality is one of the most popular topics in recent neuroscience, behavioral psychology, and evolutionary psychology. Such natural scientific methodologies and approaches have attempted to provide us with novel perspectives for the examination of the nature and mechanism of moral cognition, moral emotion, and moral behavior. The intent of this class is to review the current research on the human morality, and discuss various related topics from multidisciplinary perspectives, including but not limited to, moral development, social neuroscience, evolutionary psychology, and biological psychopathology. Furthermore, we discuss how to apply such interdisciplinary methodologies and perspectives in moral education in diverse educational settings.

BEP 600: Contemporary Educational Problems and Educational Psychology (Language and Literacy Development: Diverse Processes and Populations)

Section option

What is it about the development of reading and writing skill that vexes so many students and teachers? If all typically-developing children soak up their first language ‘like sponges’, why do so many struggle with academic language, the language of schooling, in written form but even in oral form? What cognitive mechanisms are crucially involved in language processing across modalities? What strategies facilitate literacy development across diverse student populations? And what happens when a child knows, or is expected to learn, more than one language, but then needs to use each one for different purposes across the contexts of her home and school life?

“Language and Literacy Development: Diverse Processes and Populations” is the first in a series of Special Topics courses on the development of language and literacy in children, and it is designed to identify and develop theoretically nuanced, empirically informed, and academically applicable answers to these questions and others. In this iteration of the course, participants critically engage with seminal and state-of-the-art research on the development of language and literacy with a particular focus on the illuminating population of English-language learners/bilingual children. Readings focus on cognitive, social, and psycho-linguistic processes, and support the class’ collaborative development of an experimental study exploring a related phenomenon, to be submitted for presentation at a disciplinary conference. Some knowledge of language development is presupposed.

BEP 641: Seminar in Learning and Cognition

Cognitive approaches to learning/teaching with focus on what constitutes authentic learning. Topics/themes include nature of preschool learning, sources contributing to learning, constructivism and holistic perspectives.

BEP 650: The Psychology of Morality

An overview of the psychology of morality with a particular focus on the processes leading to moral action. Specialty topics include measurement, gender, cross-cultural, and educational issues. Character education will be discussed with special attention to the empirical and theoretical background of current character education programs.

BEP 670: Research Methods and Trends in Educational Neuroscience

(Multiple sections)

Ed Neuro Requirement

Educational Neuroscience is an emerging area of research grounded in multiple disciplines including (but not limited to) education, psychology, neuroscience, and cognitive science. The purpose of this course is to explore major research trends and methodologies in educational neuroscience through readings and discussions, and hands-on data analysis activities.

BEP 690: Readings in Educational Psychology (Colloquium)

Ed Neuro Requirement

An advanced, weekly seminar covering special topics in Educational Psychology and Educational Neuroscience. Students also present their research projects every year in this seminar.

BEP 671: Advanced Topics in Educational and Cognitive Neuroscience

This course covers advanced topics in educational neuroscience. Some of the topics covered are neuroplasticity, structural, functional and effective connectivity, evolution of brain and cognition, sensory-motor integration, and genetics of learning.

Comprehensive Exams and Dissertation

TIMELINE TO THE COMPREHENSIVE EXAM & DISSERTATION

All degree-seeking students in the Educational Psychology doctoral program are required to successfully complete a written comprehensive examination before a degree is granted. The following timeline is meant to illustrate the steps of the process involved in working towards the comprehensive exams and planning for the dissertation phase.

To be eligible to take the comprehensive major examination for the Doctor of Philosophy degree, a student must have completed: all required Educational Psychology Core Courses and all areas of specialization courses. The Educational Psychology Program’s comprehensive examination is designed to assess the development of the student's competencies and skills according to the following criteria:

Written: Students review current and historic literature in two of the four major areas of educational psychology (learning, motivation, development, or neuroscience).

Oral: Students review the existing literature and propose a novel study in their specialty area.

Note:  Calendar icons indicate deadlines by which steps should be completed (Fall and Spring, respectively). Always check with your advisor, program director, and the Registrar for the most up-to-date policies.

For additional information, visit the Educational Psychology doctoral program entry in the UA Catalog.

WANT TO APPLY?

Interested in applying to our PhD program? Use the link below to access the application. Please note that you must apply to the PhD program in Educational Psychology and indicate your concentration choice as “Educational Neuroscience.”

HAVE A QUESTION?

If you’re interested in learning more about our program, please explore this website. For faculty research interests, click the “Research” button from the menu or feel free to contact our faculty. For general program-related questions, contact the program coordinator, Dr. Hyemin Han, at hhan19@ua.edu. We look forward to connecting with you!

ARE YOU A CURRENT STUDENT?

Looking for resources? Click the link below to access resources for students and faculty in our program.