Students are challenged to design and program Arduino-controlled robots that behave like …
Students are challenged to design and program Arduino-controlled robots that behave like simple versions of the automated guided vehicles engineers design for real-world applications. Using Arduino microcontroller boards, infrared (IR) sensors, servomotors, attachable wheels and plastic containers (for the robot frame), they make "Lunch-Bots." Teams program the robots to meet the project constraints—to follow a line of reflective tape, make turns and stop at a designated spot to deliver a package, such as a sandwich or pizza slice. They read and interpret analog voltages from IR sensors, compare how infrared reflects differently off different materials, and write Arduino programs that use IR sensor inputs to control the servomotors. Through the process, students experience the entire engineering design process. Pre/post-quizzes and coding help documents are provided.
Developed by the Science Museum of Western Virginia, this educator outline is …
Developed by the Science Museum of Western Virginia, this educator outline is intended to assist in guiding middle school-aged students through various activities using the Rokit Smart robot kit. The Rokit Smart utilizes Arduino, a widely-used open-source environment for programming that enables users to create interactive electronic objects. Designed through modules, the activities can be grouped to fit after-school, summer camp, or other student enrichment needs.
Developed by the Science Museum of Western Virginia, this educator outline is …
Developed by the Science Museum of Western Virginia, this educator outline is intended to assist in guiding middle school-aged students through various activities using the Rokit Smart robot kit. The Rokit Smart utilizes Arduino, a widely-used open-source environment for programming that enables users to create interactive electronic objects. Designed through modules, the activities can be grouped to fit after-school, summer camp, or other student enrichment needs.
Developed by the Science Museum of Western Virginia, this educator outline is …
Developed by the Science Museum of Western Virginia, this educator outline is intended to assist in guiding middle school-aged students through various activities using the Rokit Smart robot kit. The Rokit Smart utilizes Arduino, a widely-used open-source environment for programming that enables users to create interactive electronic objects. Designed through modules, the activities can be grouped to fit after-school, summer camp, or other student enrichment needs.
Developed by the Science Museum of Western Virginia, this educator outline is …
Developed by the Science Museum of Western Virginia, this educator outline is intended to assist in guiding middle school-aged students through various activities using the Rokit Smart robot kit. The Rokit Smart utilizes Arduino, a widely-used open-source environment for programming that enables users to create interactive electronic objects. Designed through modules, the activities can be grouped to fit after-school, summer camp, or other student enrichment needs. *Module 4 is meant to be done after Modules 1-3 are completed.
Students learn basic concepts of robotic logic and programming by working with …
Students learn basic concepts of robotic logic and programming by working with Boe-Bot robotsâa simple programmable robotic platform designed to illustrate basic robotic concepts. Under the guidance of the instructor and a provided lab manual, student groups build simple circuits and write codes to make their robots perform a variety of tasks, including obstacle and light detection, line following and other motion routines. Eight sub-activities focus on different sensors, including physical sensors, phototransistors and infrared headlights. Students test their newly acquired skills in the final activity, in which they program their robots to navigate an obstacle course.
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