Organized in ten day sessions each summer, on university campuses across the USA, the IEEE TryEngineering Summer Institute unites students from around the world - co-ed, between 13-17 years old - to: Practice prototyping and manufacturing skills and present your new product idea at the end of the program.The goal of our 2023 engineering camp is to spark enthusiasm in engineering and technology in the next generation of problem-solvers and difference-makers, and position these innovators for long-term success in academics and in life. You will learn basic coding skills using open-source hardware & software and will program a microcontroller to sense and react to things like moisture, sound, light and more. Hardware & Software Engineering: Coding Challenge Practice prototyping and manufacturing skills and present your new product idea at the end of the program. You will learn basic coding skills using Arduino and will program a microcontroller to sense and react to things like moisture, sound, light and more. You will practice making the same tough decisions that vaccine makers have made, and explore the complexities of the problem, working with other students to maximize the number of shots received.Īpply STEM problem-solving skills to develop and design products that address problems arising from the changing climate. You will explore some of the challenges faced with vaccinating residents without knowing how many people would want to receive the vaccine and how many doses are shipped from a supplier. In this workshop, you will learn how to optimize the distribution of goods and services by simulating a vaccine distribution network. Industrial and systems engineers plan, design, implement and manage integrated systems in a variety of industries which incorporate people, material, information and equipment so that performance, reliability and cost can be assured. Industrial & Systems Engineering: Supply Chain Challenge You will work in a group to apply design thinking principles to the challenge of creating functional devices and will learn how to assemble them. Transform the lives of people and animals who have limb loss or disabilities by learning how to make prosthetics, orthotics, or other adaptive devices in an affordable way-through 3-D printing and other manufacturing technologies. Temple University's Office of Pre-college Programs offers a breadth of opportunities for students entering grades 9, 10, 11, or 12 to experience Temple University academics while exploring potential college majors through non-credit workshops. There's no homework, but you will be challenged to learn about autonomous programmable robots and the different areas of electrical and computer engineering.Ĭlick here to apply and learn more about requirements and eligibility>Ĭlick here to learn about financial aid options. Temple professors, graduate and undergraduate students will instruct you every step of the way in the state of the art electronics laboratory. Microbit microcontrollers and resources to extend your knowledge Programming robot to perform obstacle avoidance, lane line following, and more Sensors, motors, microcontrollers, and electrical components The course will provide extensive project-based learning experiences in a university electrical and computer engineering laboratory environment. The application of these concepts and their connection to electrical and computer engineering will be described. Students will build an autonomous, programmable mobile robot and be introduced to some of the exciting concepts in robotics and electronics. It will be a great introduction to a college program in electrical and computer engineering. Learn how to build a mobile robot and program it to perform fascinating tasks such as autonomous obstacle avoidance, following lane lines, playing music, dancing, and much more! You will be shown how to control a mobile robot remotely and be given resources to extend your robotics and electronics knowledge well beyond this course.
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