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The VEX IQ Robotics Competition, presented by the Robotics Education & Competition Foundation, provides elementary and middle school students with exciting, open-ended robotics and research project challenges that enhance their science, technology, engineering, and mathematics (STEM) skills through hands-on, student-centered learning. VEX IQ is ...
The Robotics Education & Competition Foundation (REC Foundation or RECF) is a 501(c)(3) non-profit organization best known for managing competitions and programs for the VEX Robotics Competition. [1] Over 1.1 million students have participated in RECF programs around the world.
Robotic competitions have been organized since the 1970s and 1980s. In 1979 a Micromouse competition was organized by the IEEE as shown in the Spectrum magazine. [2]Although it is hard to pinpoint the first robotic competition, two events are well known for their longevity: the All Japan Robot-Sumo Tournament, of Robot-Sumo in Japan, and the Trinity College International Fire Fighting Robot ...
FIRST Tech Challenge (FTC), formerly known as FIRST Vex Challenge, is a robotics competition for students in grades 7–12 to compete head to head, by designing, building, and programming a robot to compete in an alliance format against other teams.
Educational robotics can be a useful tool in early and special education. [12] According to a journal on new perspectives in science education, educational robotics can help to develop abilities that promote autonomy and assist their integration into society. Social and personal skills can also be developed through educational robotics. [13]
Vex, a scripting language in the software Houdini; Venus Express, a European Space Agency space mission to the planet Venus; Vex, a suborbital test Tronador rocket in development by Argentina; VEX Robotics, a robotics program for elementary through university students
FIRST Robotics Competition (FRC) is an international high school robotics competition. Each year, teams of high school students, coaches, and mentors work during a six-week period to build robots capable of competing in that year's game that weigh up to 115 pounds (52 kg). [ 4 ]
The TETRIX MAX Robotics building system offers gears of two tooth count, 40-tooth and 80-tooth. [5] The seventh category of parts are the standoffs. The TETRIX MAX Robotics building system offers standoffs in 4 lengths, 1″, 2″, 32 mm, and 16 mm. [5] The next category of TETRIX MAX Robotics parts are servos and hardware. This includes the ...