1. AC/DC Electronics

    • Grade Range: 9, 10, 11, 12, Postsecondary
    AC/DC Electronics focuses on the basic electricity principles of alternating current/direct current (AC/DC) circuits. Students will demonstrate knowledge and applications of circuits, electronic measurement, and electronic implementation. Through use of the design process, students will transfer...
  2. Engineering Design and Presentation I

    • Grade Range: 9, 10, 11, 12, Postsecondary
    Engineering Design and Presentation I is a continuation of knowledge and skills learned in Principles of Applied Engineering. Students enrolled in this course will demonstrate knowledge and skills of the design process as it applies to engineering fields using multiple software applications and...
  3. Robotics I

    • Grade Range: 9, 10, 11, 12, Postsecondary
    In Robotics I, students will transfer academic skills to component designs in a project-based environment through implementation of the design process. Students will build prototypes or use simulation software to test their designs. Additionally, students will explore career opportunities,...
  4. Engineering Mathematics

    • Grade Range: 9, 10, 11, 12, Postsecondary
    Engineering Mathematics is a course where students solve and model design problems. Students will use a variety of mathematical methods and...
  5. Engineering Design and Problem Solving

    • Grade Range: 9, 10, 11, 12, Postsecondary
    The Engineering Design and Problem-Solving course is the creative process of solving problems by identifying needs and then devising solutions. The...
  6. Engineering Design and Presentation II

    • Grade Range: 9, 10, 11, 12, Postsecondary
    Engineering Design and Presentation II is a continuation of knowledge and skills learned in Engineering Design and Presentation I. Students enrolled in this course will demonstrate knowledge and skills of the design process as it applies to engineering fields using multiple software applications...
  7. Lesson Plan: Inductance

    • Resource ID: 14820
    • Grade Range: 10, 11, 12
    In this lesson, students will learn to identify inductance and its properties, laws and mathematical rules that support the idea.
  8. Lesson Plan: Parallel Resistive Circuits Part 2

    • Resource ID: 14835
    • Grade Range: 10, 11, 12
    In this lesson, students will learn Kirchoff’s law to determine voltage, current, and resistance in a parallel circuits.
  9. Lesson Plan: Robotics I - Automation and Patents

    • Resource ID: 14910
    • Grade Range: 11, 12
    In this lesson, students will discuss the design and patent processes, and design and build a robot.
  10. Lesson Plan: Paper Airplane Design and Experiment

    • Resource ID: 14592
    • Grade Range: 10, 11, 12
    In this lesson students will learn about engineering and problem solving when tasked to design a paper airplane to carry as many paper clips as possible.
  11. Lesson Plan: Engineering Design Portfolio Part 1

    • Resource ID: 14877
    • Grade Range: 10, 11, 12
    In this lesson, students will research and follow a list of criteria during their examination of two portfolio types; traditional portfolio and ePortfolio.
  12. Lesson Plan: Engineering Design Portfolio Part 3

    • Resource ID: 14881
    • Grade Range: 10, 11, 12
    In this lesson, students will learn about evaluating a portfolio using various rubrics. They will then evaluate both traditional and digital portfolios.
  13. Lesson Plan: Researching Careers in Electronics

    • Resource ID: 14796
    • Grade Range: 10, 11, 12
    In this lesson, the student will research information related to job requirements for various job titles in the field of electronics and identify ethics with computer usage and copyright policy.
  14. Lesson Plan: Engineering Design Portfolio Part 2

    • Resource ID: 14879
    • Grade Range: 10, 11, 12
    In this lesson, students will learn about two types of portfolios (traditional print and ePortfolio) and will create a traditional print portfolio that meets the criteria given in the rubrics and/or examples given.
  15. Lesson Plan: Engineering - C Clamp Parametric Modeling

    • Resource ID: 14697
    • Grade Range: 11, 12
    In this lesson, students will create the five parts of the C-Clamp, assemble them, create an exploded assembly, place them into an 11 in. X 17 in. layout, and annotate the layout.
  16. Lesson Plan: Concepts of Engineering Math

    • Resource ID: 14893
    • Grade Range: 11, 12
    In this lesson, students will apply engineering mathematics to various bridge applications, using team building strategies. This includes understanding different types of bridges, how to scale objects and using dimensional analysis.
  17. Lesson Plan: STEM - Researching Careers in AC/DC Electronics

    • Resource ID: 14798
    • Grade Range: 10, 11, 12
    In this lesson, students will research several careers in the field of electronics through the use of websites, newspapers, and other job posting mediums.  
  18. Lesson Plan: Engineering Mathematics - Electrical Systems

    • Resource ID: 14899
    • Grade Range: 11, 12
    In this lesson, students will learn about electricity and design a building/wing/floor that meets a certain power consumption criteria using conventional power sources (fossil fuels) and renewable power sources.
  19. Lesson Plan: The Nature of Matter

    • Resource ID: 14804
    • Grade Range: 10, 11, 12
    In this lesson, students will learn how matter is fundamental to the understanding of electricity. Student will also be able to describe the atomic models, electron orbits and shells, and how valence electrons determine conductivity.
  20. Lesson Plan: STEM - Inductive Reactance

    • Resource ID: 14822
    • Grade Range: 10, 11, 12
    In this lesson, students will have an understanding of how inductive reactance impacts the operation of electrical equipment.