Digital Electronics:
Digital Electronics will give students a perspective of analog and digital electronics. The distinction between analog and digital will be explored as it relates to the world of electronics. Students will learn about integrated circuits and understand the logic gates that make our digital world possible. The students will use computer animated software, digital electronic trainers, and various other electricity trainers and testing equipment to solve real-world problems using mathematics, particularly algebra. Students will also design and build an electronic device of their choice.
Digital Electronics will give students a perspective of analog and digital electronics. The distinction between analog and digital will be explored as it relates to the world of electronics. Students will learn about integrated circuits and understand the logic gates that make our digital world possible. The students will use computer animated software, digital electronic trainers, and various other electricity trainers and testing equipment to solve real-world problems using mathematics, particularly algebra. Students will also design and build an electronic device of their choice.
Principles of Engineering: (POE)
This STEM course is a team based advanced course designed to develop problem-solving skills by solving real-world problems using scientific principles. Through the use of theory and practical hands-on experiences, students address the emerging social and political consequences of technological change. One of the hands-on learning experiences in this course covers robotics and the VEX Challenge, which is a competition between robots build in class. This course is designed for students interested in the engineering field or applying math and science content to solve real world problems. Professional engineers as guest speakers and field trips to engineering universities will also be included in this course.
This STEM course is a team based advanced course designed to develop problem-solving skills by solving real-world problems using scientific principles. Through the use of theory and practical hands-on experiences, students address the emerging social and political consequences of technological change. One of the hands-on learning experiences in this course covers robotics and the VEX Challenge, which is a competition between robots build in class. This course is designed for students interested in the engineering field or applying math and science content to solve real world problems. Professional engineers as guest speakers and field trips to engineering universities will also be included in this course.
Introduction to Engineering Design: (IED)
This STEM course is a basic introduction to engineering for all students. Students who complete this course will learn the concepts necessary in order to develop their ideas into solutions that will improve our lives. Exciting hands-on learning activities like data comparison of heart rates, rating consumer products, destructive testing, and 3D solid modeling apply math, science, history, and English content from other courses in a STEM experience. This is a great course for students to develop their creative ideas and make them into reality!
This STEM course is a basic introduction to engineering for all students. Students who complete this course will learn the concepts necessary in order to develop their ideas into solutions that will improve our lives. Exciting hands-on learning activities like data comparison of heart rates, rating consumer products, destructive testing, and 3D solid modeling apply math, science, history, and English content from other courses in a STEM experience. This is a great course for students to develop their creative ideas and make them into reality!