*Note: This program of study is only offered thru 2027
Introduction to Engineering Design (PLTW)
Local Code: 9B00
PEIMS: N1303742 Credit 1.0 Course: Level 1
Description: In IED students are introduced to the engineering profession and a common approach to the solution of engineering problems, an engineering design process. Utilizing the activity-project-problem-based (APB) teaching and learning pedagogy, students will progress from completing structured activities to solving open ended projects and problems that require them to develop planning, documentation, communication, and other professional skills.
Manufacturing Engineering Technology I
Local Code: 94D0
PEIMS: Credit 1.0 Course: Level 2
Description: TO BE DETERMINED BY TEA
Engineering and Design and Development (PLTW)
Local Code: 9B10
PEIMS: N1303749 Credit 1.0 Course: Level 3
Description: It is an open-ended engineering research course in which students work in teams to design and develop an original solution to a well-defined and justified open-ended problem by applying an engineering design process. Students will perform research to select, define, and justify a problem. After carefully defining the design requirements and creating multiple solution approaches, teams of students select an approach, create, and test their solution prototype. Student teams will present and defend their original solution to an outside panel. While progressing through the engineering design process, students will work closely with experts and will continually hone their organizational, communication and interpersonal skills, their creative and problem solving abilities, and their understanding of the design process.
Engineering Design and Problem Solving
Local Code: 94C0
PEIMS: 13037300 Credit 1.0 Course: Level 4
Description: The Engineering Design and Problem-Solving course is the creative process of solving problems by identifying needs and then devising solutions. The solution may be a product, technique, structure, or process depending on the problem. Science aims to understand the natural world, while engineering seeks to shape this world to meet human needs and wants. Engineering design takes into consideration limiting factors or "design under constraint." Various engineering disciplines address a broad spectrum of design problems using specific concepts from the sciences and mathematics to derive a solution. The design process and problem solving are inherent to all engineering disciplines.
