This course develops student preparedness in 21st Century sustainability career fields. Students conduct a series of hands-on projects related to climate, sustainability, renewable energy, energy efficiency, and more. Students will solve sustainability challenges using industry tools, giving technical skills that can provide opportunities for success in the future. Students will conduct energy audits, create renewable energy circuits, and create energy proposals. Students will then try to impact their community through leading with decision makers and putting forth action plans to make the community a more sustainable place. This course and The Energy and the Environmental Design courses be taught in a course series to meet all of the Energy and Power Technology Pathway standards.
|
This course develops student preparedness in 21st Century sustainability career fields. Students conduct a series of hands-on projects related to climate, sustainability, renewable energy, energy efficiency, and more. Students will solve sustainability challenges using industry tools, giving technical skills that can provide opportunities for success in the future. Students will conduct energy audits, create renewable energy circuits, and create energy proposals. Students will then try to impact their community through leading with decision makers and putting forth action plans to make the community a more sustainable place. This course and The Energy and the Environmental Design courses be taught in a course series to meet all of the Energy and Power Technology Pathway standards.
|
Green Technology 2, the capstone course of the Energy and Power Technology pathway, builds upon the foundational knowledge introduced in the first course, offering an advanced exploration of sustainable energy systems and green building practices. Distinguished by its hands-on, project-based approach, this course integrates career-ready skills such as energy auditing, solar installation, and Zero Net Energy design with critical scientific principles, including energy transfer, climate science, and renewable energy systems. Through rigorous units and culminating in a capstone project, students gain practical experience in solving real-world energy challenges, presenting their findings to authentic stakeholders. This course is uniquely positioned to prepare students for careers or further education in energy and environmental fields, with a strong emphasis on collaboration, technical problem-solving, and environmental responsibility. Its alignment with CTE standards and connections to scientific disciplines make it a vital bridge between high school education and emerging green industries.
|
Green Technology 2, the capstone course of the Energy and Power Technology pathway, builds upon the foundational knowledge introduced in the first course, offering an advanced exploration of sustainable energy systems and green building practices. Distinguished by its hands-on, project-based approach, this course integrates career-ready skills such as energy auditing, solar installation, and Zero Net Energy design with critical scientific principles, including energy transfer, climate science, and renewable energy systems. Through rigorous units and culminating in a capstone project, students gain practical experience in solving real-world energy challenges, presenting their findings to authentic stakeholders. This course is uniquely positioned to prepare students for careers or further education in energy and environmental fields, with a strong emphasis on collaboration, technical problem-solving, and environmental responsibility. Its alignment with CTE standards and connections to scientific disciplines make it a vital bridge between high school education and emerging green industries.
|
This course will integrate the concepts of transportation, energy, and power, using a team-based project approach. Through various computer module activities, students will enhance their understanding of the transportation field. The modules consist of: alternative energy, solar energy, fluid power, laser and fiber optics, auto design, land transportation, internet research, electronics, engineering, aerospace, robotics, CADD, and research and design.
|
This course will integrate the concepts of transportation, energy, and power, using a team-based project approach. Through various computer module activities, students will enhance their understanding of the transportation field. The modules consist of: alternative energy, solar energy, fluid power, laser and fiber optics, auto design, land transportation, internet research, electronics, engineering, aerospace, robotics, CADD, and research and design.
|
This course will integrate the various previously learned and new advanced technologies through team-based project learning. The integrated technologies will include: Geographical Information Systems (GIS), Computer-aided Drafting and Design (CADD), Intelligent Transportation Systems (ITS), alternative fuel technology, solar energy, and urban planning. Real world applications will be emphasized throughout the course.
|
This course will integrate the various previously learned and new advanced technologies through team-based project learning. The integrated technologies will include: Geographical Information Systems (GIS), Computer-aided Drafting and Design (CADD), Intelligent Transportation Systems (ITS), alternative fuel technology, solar energy, and urban planning. Real world applications will be emphasized throughout the course.
|