• èßäÊÓƵapp in the Science, Technology, Engineering and Mathematics (STEM) Area of Interest will take a series of four graduate courses focusing on integrated STEM Education.

    These courses can be used as an area of interest within a Master in Education (M.Ed.) degree, or can be taken standalone as a professional development sequence.

    • EDU 6349: The Science of Learning and STEM
    • EDU 6350: Designing and Making
    • EDU 6383: Coding for Teachers
    • EDU 6351: Community-Centered STEM Integration


  • STEM student

    EDU 6349. The Science of Learning and STEM (offered in Fall)

    This course introduces students to the discipline of the learning sciences and to designing integrated STEM learning environments. The course is taught through face-to-face discussions, hands-on investigations, and field trips to traditional and nontraditional sites for STEM teaching and learning in the Dallas-Fort Worth area. èßäÊÓƵapp in this course complete several projects, including conducting and analyzing problem-solving interviews, leading tinkering sessions where students explore emerging technologies to teach STEM content, and writing integrated STEM lesson plans. Topics covered in this course include: the development of expertise in STEM, formal and informal settings for STEM learning, effective approaches to STEM instruction, maker-based learning in STEM, and integrating new learning technologies into STEM classes.

  • STEM class activity using fruit

    EDU 6350. Designing and Making in STEM Education (offered in Spring)

    This course prepares students to develop classroom activities connected to STEM that promote designing and making with new and old technologies. The course is taught through a series of class discussions, design experiences in the Simmons Design Lab and Deason Innovation Gym, and field trips to community sites engaged in traditional and nontraditional activities focused on designing and making. èßäÊÓƵapp enrolled in the course will explore the link between designing and making and K-12 STEM learning, investigate the attributes of a successful design challenge, and outline the components of school-based makerspaces that make them innovative venues for K-12 STEM learning. Across the semester, students will complete three design challenges. Additionally, students will draft a grant proposal for the materials necessary to implement an integrated STEM project focused on designing and making with an emerging technology.

  • STEM coding project

    EDU 6383. Coding for Teachers

    This course introduces students to the fundamental coding and technology skills needed to design computational computing assignments for STEM education. This course is taught through a series of hands-on tutorials and programming assignments designed to build skills and confidence in coding. èßäÊÓƵapp enrolled in this course explore common approaches to coding in K-12 education, including block programming, object oriented scripting, and app development. Across the semester, students learn to solve problems with code using these approaches. The course culminates with an instructional design project where students design a problem-based coding assignment for a STEM lesson and create sample code to demonstrate how a student might solve a problem with computational computing.

  • Community STEM students

    EDU 6351. Community-Centered STEM Integration

    (Offered in Spring; This is the final course in the four-course sequence.)

    This course is taught in a practicum style and involves deep engagement in extended investigations in STEM fields. èßäÊÓƵapp in this course will choose a STEM topic for their “capstone project” for the STEM area of interest sequence. This topic must relate to something that students could experience in the DFW community – such as a project involving water quality at White Rock Lake, a project involving mathematical considerations in DFW architecture or urban planning, or a project involving engineering principles behind alternative energy sources at the Dallas Arboretum. The project will involve the student in this course first engaging with the topic on their own, and then they will explore how they could use their topic as a vehicle for STEM integration and effective STEM instruction in their own K-12 classroom.