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( Printable Camp flyer) Registration* begins: March 6, 2023. JONESBORO The hard work and effort of several Jonesboro Public School students has paid off as several teams prepare their unique robots for the VEX Robotics World Championships next month. OSU Campus * Entering Grades 3-5 * July 17-21 * 9AM-NOON * $160 * Needs-based scholarships available. Students will learn scientific principles as they build over 40 robots including a Dragonfly, a Spider, a Surfer, a Bell, a Water Mill, an Airplane, a Fox, a Giraffe, an Elephant, a Fencer, a Goalkeeper, a Skater, a Skier, a Striker, a Swimmer, a Tennis Player, a Weight Lifter, a Rocking Chair, a Windmill, a Boat, an Helicopter, a Bicycle, an Airplane, a Motorcycle, a See-Saw, a Viking, a Catapult, a Car, a ScissorsBot, a Shoveling Machine, a Copy Machine, a Manual Fan, a Dancing Clown, a 4-legged crawler, a motor Helicopter, a BettleBot, a Troublemaker, a Line Tracer, a Brick Board, a Remote Control Car, an Avoider, a Spider SoccerBot and a Scorpion Soccerbot. June 12-15, 2023. https://doi.org/10.1007/s12369-020-00689-y, Lin, K. Y., Hsiao, H. S., Williams, P. J., & Chen, Y. H. (2019). No two programs are alike, so its best to visit a programs website for information about curriculum, timing, cost, and registration or application details as you evaluate opportunities. Retrieved from http://www.whitehouse.gov/sites/default/files/microsites/ostp/pcast-engage-to-excel-v11.pdf, Hsiao, H.-S., Lin, Y.-W., Lin, K.-Y., Lin, C.-Y., Chen, J.-H., & Chen, J.-C. (2022). As the robot moves around, it "draws" on the paper or surface underneath, which makes the ArtBot a very creative robot! For more lessons and activities related to the Mars Mission, see Space Science & Mars STEM Lessons and Activities. https://doi.org/10.1177/0162353217745158. Each robotics program is filled with engineering and programming challenges to keep students fully engaged. https://doi.org/10.1007/s10798-020-09603-z, Cheng, C. C., Huang, P. L., & Huang, K. H. (2013). Self-efficacy. Campers make new friends and experience life on a college campus in a safe, fun learning environment. 98107). Factors associated with poor performance of learners in mathematics and physical science in secondary schools in Soshanguve South Africa. We offer classes both in-person and virtual. https://doi.org/10.1109/FIE.2016.7757487, Kopcha, T. J., McGregor, J., Shin, S., Qian, Y., Choi, J., Hill, R., Mativo, J., & Choi, I. Join the adventure with NASA and Walton Robotics! We hope these collections make it convenient for teachers to browse related lessons and activities. (2018). With even the simplest of robots, students can make and test design changes (like the shape, angle, or number of toothbrush heads in a bristlebot) to make connections with the engineering design process. The question-and-answer session via Zoom . 33 teams and their robots, built and programmed by Ontario high school students, will compete in an epic battle that combines sport, science, and teamwork. After students have experimented with simple circuits and basic robots, they are ready to explore robots designed for specific functions and with more complex circuits and sensors to give robots certain behaviors. Retrieved from http://www.moe.gov.cn/s78/A16/s5886/s7822/201801/t20180111_324362.html. Exploring the effects of gender grouping and the cognitive processing patterns of a Facebook-based online collaborative learning activity. etin, M., & Demircan, H. . Campers learn from a variety of educators including USF St. Petersburg campus faculty, Pinellas County teachers and Microsoft experts. What grades are recommended for UCR Elementary Robotics Camp? The National Academies Press. Introduce different transmission methods, 1. National Science Board. Committee on Learning Science in Informal Environments. Computers in Human Behavior, 72, 558569. Build a BlueBot Guard Robot!. In fact, most kids have so much fun in our robotics classes and coding programs, they dont even realize how much they are learning. Effects of the world robot Olympiad on the students who participate: A qualitative study. On-Campus Programs. Journal of Baltic Science Education, 15(4), 477493. Activities will be led by USC Viterbi Center staff and USC students. Design their own herb delivery vehicle, S: A standard vehicle structure consists of two main parts: the chassis and the body, E: Design and construction of herb delivery vehicles, 1. Bandura, A. Using LEGO EV3, mathematical concepts, and engineering principles students will brainstorm, plan, test, and modify sequences of instructions to accomplish a given task. (858) 534-5760. Students in-moment challenges and developing maker perspectives during problem-based digital making. Themes in Science and Technology Education, 6(1), 6371. (2020). Education Statistics 2020. Our robotics programs include the present as grades 4-6 will use the renowned VEX Robotics kits. Similar to popular nanobug-style toys, these DIY robots shuffle around on the toothbrush bristles as the motor vibrates. Date (s) & Times: 9-11:30 a.m.; June 26-30, 2023. Robotics can work its magic even for early elementary students. Students can use the UCR Elementary Robotics Camp kit multiple times in several classrooms! All participants took part in the camp program for three consecutive days. Alimisis, D. (2013). With only a motor and a battery, students can make basic robots and learn about circuits and think about the design of robot bodies and the materials used to build robots. In the Squishy Robots: Build an Air-Powered Soft Robotic Gripper project, students explore robots that are made from rubber rather than metal and powered by air instead of electricity. Students can explore the factors that go into the design of a robotic hand by building a simple articulated robotic hand from straws, thread, and common household and recycled materials. and How Fast is Automatic Braking?. OSU Campus * Entering Grades 4-5 * June 26-30 * 9AM-NOON * $160 * Needs-based scholarships available. She's new to robotics so she built a Simple Claw Bot. (See how this family made robot hands at home.). No computers are necessary for the UCR Elementary Robotics Camp, only if you would like to use the models available through Google 3D Warehouse. In addition, students experience with engineering-based activities had a statistically significant impact on computational thinking skills, and programming experience affected self-efficacy with regard to participation in STEM activities. To apply please visit https://ecet.usc.edu/workshops/ or https://cisoft.usc.edu/. Themes range from Space Explorers to PokeMania Robotics. (2016). MOORESTOWN, New Jersey -- Upper Elementary School held an Av robotics competition earlier this month, putting our future engineers in the spotlight. Weeklong and 2-week programs in coding, game design, robotics, and more held at 75+ locations for ages 7-19. The colloquium will include a total of three sessions each lasting three hours plus a final three hours for feedback from the participating teachers. Educational Technology Research & Development, 67(6), 14051425. Are there lessons available with the Elementary Robotics Camp? 6. In the activity, students create an obstacle course and devise a set of directions for navigating it. Robotics and Autonomous Systems, 75, 692699. In the DIY Mini Drone: Arduino Altitude Control activity, students take a basic DIY drone to the next level by building an altitude control circuit with an ultrasonic distance sensor and an Arduino. With IPSF Summer classes and camps, students can pursue their interests, discover new passions, and brush up on fundamentals for the next school year. If youre interested in finding additional online activities, take a look at my article which features online classes for kids and teens. Your son or daughter will have a blast exploring real-world challenges using robotics to investigate possible solutions. Taylor, K. (2016). Perhaps you can contact them and ask if they are aware of summer programs. Effects of 6E-oriented STEM practical activities in cultivating middle school students attitudes toward technology and technological inquiry ability. Educational technology research and development, https://doi.org/10.1007/s11423-023-10191-7, https://doi.org/10.1007/s11423-023-10212-5, https://doi.org/10.1007/s11423-019-09648-5, https://doi.org/10.1007/s11528-019-00461-8, https://doi.org/10.1080/07351690.2013.743769, https://doi.org/10.1016/j.sbspro.2010.03.427, https://doi.org/10.1016/j.compedu.2011.10.006, https://doi.org/10.1016/j.compedu.2013.10.020, https://doi.org/10.1080/03004430.2018.1534844, https://doi.org/10.1080/10494820.2020.1775097, https://doi.org/10.1007/s10798-020-09603-z, https://doi.org/10.4304/jnw.8.7.1529-1535, https://doi.org/10.1007/s11218-017-9419-5, https://doi.org/10.1016/j.robot.2015.05.013, https://doi.org/10.1007/s42330-020-00105-7, http://www.whitehouse.gov/sites/default/files/microsites/ostp/pcast-engage-to-excel-v11.pdf, https://doi.org/10.1080/10494820.2019.1636090, http://www.iste.org/docs/ctdocuments/ct-leadershipt-toolkit.pdf?sfvrsn=4, https://doi.org/10.1080/1359813042000225357, https://doi.org/10.1007/s41686-017-0005-1, https://doi.org/10.1016/j.chb.2017.01.005, https://doi.org/10.1007/s11423-021-10034-3, https://doi.org/10.1007/s10956-016-9628-2, https://doi.org/10.1007/s12369-020-00689-y, https://doi.org/10.1080/02635143.2018.1561432, https://doi.org/10.1007/s10956-020-09882-0, https://doi.org/10.1080/18146620701412183, https://doi.org/10.1080/03054985.2012.731208, http://www.moe.gov.cn/s78/A16/s5886/s7822/201801/t20180111_324362.html, http://www.moe.gov.cn/s78/A03/moe_560/2020/, https://doi.org/10.1007/s11422-022-10105-8, https://doi.org/10.1080/15391523.2010.10782557, https://doi.org/10.1080/15391523.2021.1967817, https://doi.org/10.1080/15391523.2016.1146563, https://scholarworks.boisestate.edu/cgi/viewcontent.cgi?article=2179&context=td, https://doi.org/10.1016/j.chb.2018.12.010, https://doi.org/10.1007/s10798-013-9253-9, https://doi.org/10.1016/S0742-051X(01)00052-X, https://doi.org/10.1080/15391523.2007.10782505, https://doi.org/10.1080/10494820.2020.1799026, https://doi.org/10.1007/s10956-016-9635-3, S=Scientific; T=Technology; E=Engineering; M=Mathematics. Procedia-Social and Behavioral Sciences, 2(2), 28512857. Students who were able to participate in the club are not eligible to register. Self-efficacy: An essential motive to learn. The event featured 150 students, ages 6-14 . From Roblox & Minecraft to Python Programming & Web Development - Summer Camps are an epic, week-long journey through the world of technology that many of our students call the highlight of their summer! All materials needed for the camp will be provided and mailed to students' homes prior to the start of the camp, along with a camp schedule. Technology and Engineering Teacher, 73, 1419. For more information about building programming skills with projects using BlueBot and Arduino, see 10 Robotics Projects with the BlueBot Kit. Enroll your child today! Outdoor activities and unstructured playtime are often built into the camp day, allowing kids to relax and make new friends. For more on evaluating a summer STEM program for your child, check out. In the Build a Brushbot activity, students make robots using scrub brushes. Collaborative robotics, more than just working in groups: Effects of student collaboration on learning motivation, collaborative problem solving, and science process skills in robotic activities. Educational Technology Research and Development. ISTE. Our STEM camp tracks include Coding, Robotics, Cybersecurity, Fabrication, Rocketry and more! Report to the President. Programs include a wide variety of topics ranging from engineering, science, art, math, robotics, reading, and more. Computers & Education, 160, 104010. Students receive 3 units of USC elective credit upon successful course completion. Learn more. A maximum of 20 science teachers will be selected from the applicant list to participate. Journal of Research on Technology in Education, 42(4), 391408. All activities are available in Google 3D Warehouse and you can build your own 3D models to better understand the engineering process. MOORESTOWN, New Jersey -- Upper Elementary School held an Av robotics competition earlier this month, putting our future engineers in the spotlight. Introduce the mint (one of the common Chinese herbs) and its pesticide effects, Use programming software to enable the designed boat to swing, S: Characteristics of mint; Types of boats; Role of tilt sensors, T: Programming with the software to implement the tilt sensor, M: Count the number and period of block boat swings, 1. Provided by the Springer Nature SharedIt content-sharing initiative, Over 10 million scientific documents at your fingertips, Not logged in Journal of Research on Technology in Education, 48(2), 105128. International Journal of Technology and Design Education, 32(1), 5574. Location: Boyce Middle School. Oxford Review of Education, 38(5), 583616. 110 Snell Hall Camps provide an opportunity for kids to see how science works in the real world. From basic robots, students can move on to more complicated circuits and the use of sensors to add specific behaviors to robots and to create robots that respond to their surroundings. Camp Dates: June 5 - July 21 (no camp on July 4th) Camp Times: 7:30am - 5:30pm. This iD Tech camp is designed for students ages 7-19. From scavenger hunts, defend the castle and magic movements to pinball wizard, ramp racers, secret . https://doi.org/10.1177/0735633117731382, Taylor, K., & Baek, Y. For any other use, please contact Science Buddies. Our Robotics and Science programs offer fun, hands-on experiences that get the kids excited about the world around them. Robotic construction kits as computational manipulatives for learning in the STEM disciplines. All participants took part in the camp program for . Students explore some of the design challenges of these robots by building and testing their own underwater remotely operated vehicle (ROV). Snapology offers over a dozen different robotics topics and themes to choose from each with a variety of different robots to build and program. https://doi.org/10.1006/ceps.1999.1016. https://doi.org/10.1145/1929887.1929902, Leonard, J., Buss, A., Gamboa, R., Mitchell, M., Fashola, O. S., Hubert, T., & Almughyirah, S. (2016). Re-visiting the STEM workforce: A companion to the science and engineering indicators 2014. Camps are focused on hands-on, project-based learning that provides students with excellent opportunities to begin exploring STEM fields and to chart a course for future STEM education and workforce opportunities. The Robotics Camp will extend the curriculum of the See Blue STEM Camp to provide enhanced instruction in building and programming robots. June 12 - Jul 28, 2023 . https://doi.org/10.1016/j.compedu.2013.10.020, Bosman, A., & Schulze, S. (2018). 2023 Springer Nature Switzerland AG. No robotics experience necessary! Cost . Brushbots use slightly larger electronics elements than bristlebots (see below), so they can be great for first-time robot builders and easier for younger fingers to manipulate than robots that use smaller motors. Summer Classes for Kids & Teens. Collaborative robotics, more than just working in groups. Analysis of the characteristics and reform suggestions of basic education in China. Bybee, R. W. (1997). Chinas STEM Education White Paper. The Elementary Robotics Summer Camp is a perfect introduction to Robotics for Students in Grades 3-8. 47, pp. Campers in Manatee and Sarasota counties will enjoy hands-on, high-tech fun! These camps, held in locations including Renton, Redmond and Kent, use LEGO to foster skills in building, robotics, remote control techniques and stop-motion animation with iPads. Riverside, CA 92521, 900 University Avenue AI Competition Curiosity FIRST FLL FRC FTC grant Grants Ingenuity Mars MATE nasa NASA Grants Opportunity Perseverance resource Robot Robotics Rover Space Exploration VEX VIPER VR Contact Curator: Drew Price (2010). Robotics. 5. https://doi.org/10.1080/18146620701412183, Marsden, E., & Torgerson, C. J. UC San Diego Jazz Camp. Journal of Networks, 8(7), 15291535. https://doi.org/10.1080/02635143.2018.1561432, Luo, T., So, W. W. M., Li, W. C., & Yao, J. A business professional for tech startups and the mother of two girls, Cyndi is committed to helping parents help their kids explore STEM from a young age. Exploring the educational potential of robotics in schools: A systematic review. The Robotics 101 camp, students will learn the basics of designing, programming, and controlling a fully functional robot. Our programs provide the best mix of fun and education for your child. The following word bank contains words that may be covered when teaching about robotics and robotics engineering using the lessons and activities in this resource. The Elementary Robotics Summer Camp is a perfect introduction to robotics for students in Grades 3-8. Your child will build robotic models and use iPads and/or laptop computers to program their robots (via psuedo-code or code) to complete specific tasks. The Build a Solar-Powered Bristlebot project guides students in building a robot that can run on solar power. Robotics integration to create an authentic learning environment in engineering education. https://doi.org/10.1080/15391523.2007.10782505, Wing, J. M. (2006). Part of Springer Nature. You rock! Kids will learn to program a coded robotic ball, Bolt, that can be operated by an app! In this summer robotics camp hosted in partnership with Redlands Unified School District, high school students build functioning robots and use a controller application to interact with it - being introduced to college-level STEM activities in a low-stress, fun environment. Design and build the herb delivery vehicle on your own, 1. Classify the block parts with partner according to the naming principles of LEGO blocks, 1. Join us for the FIRST Robotics Competition at the Thompson Recreation Athletic Centre from Mar 18 - Mar 19, 2023. Students uselaptops or iPads in many of our programs and are taught advancedtechnology topics in our Video Game Design, Robotics and Animationclasses. Design the context of the story and cooperate to build it with what they have learned using LEGO, S: Knowledge about herbs; Manufacturing Tools, T: Electromechanical integration using programming software, E: Work in groups to write story follow-ups. The National Academies Press. (2021). Copyright 2023 BostonTechMom. After building the basic mini popsicle stick drone, students can explore ways to improve drone behavior and flight by adding additional circuitry and sensors. The A Robot that Follows a Line lesson (above) provides a complete lesson plan for using the BlueBot kit with students. OSU Campus * Entering Grades 3-5 * June 26-30 * 1-4PM * $160 * Needs-based scholarships available. Isnt it amazing how quickly kids pick up new technology? Snapology sponsors & coaches teams under these fantastic programs which promote teamwork & coopertition (cooperative competition).Competition robotics is thesport for the mind. https://doi.org/10.1007/s11528-019-00461-8, Avery, L. M. (2013). Every summer, UNC Charlotte Camps on Campus offers academic enrichment camps for rising grades 1-12. Single group, pre-and post-test research designs: Some methodological concerns. bundleis made of 10 Robotic Kits that include in total: 2 X 2 channel DC Motor Control with driver IC (LB1836M), Input Port: Fixed 1 remote signal input port & 7 input ports for sensors (Ir, Sound, Cds). The bundle is made of 10 Robotic Kits that include in total: 10 Main Controllers 10 Remote Controllers 10 Remote Signal Receivers 30 IR-Photo TR Sensors 20 DC Motors & 40 DC Motor Shafts 200 Bricks 660 Frames 260 Axis & 300 Bushings In the Line-Following Robot lesson, students build a BlueBot robot with a circuit that uses an infrared sensor. Understand the shape and efficacy of the herb mint, 3. This is invaluable- you just saved me thanks so much! Camp dates: June 6-9 (Elementary Half Session Camp); June 25-June 30 (Full Week Elementary Camp); June 18-23 (Middle School); July 9-14 (Middle School Discovery Camp); June 11-16 (High School . Snapology provides several interactive robotics classes and coding programs for children ages 3-14 using LEGO bricks. The class is set up in blocks, with a "creativity & activity break" in the middle, when students will get outside or do other hands-on activities. Education Tech Research Dev (2023). Retrieved March 20, 2019 from https://scholarworks.boisestate.edu/cgi/viewcontent.cgi?article=2179&context=td. Thanks for your effort in compiling this list! One hundred fifty-three third- and fourth-grade elementary school students from three different rural schools in China were recruited to participate. Learn more about Institutional subscriptions, A Correction to this paper has been published: https://doi.org/10.1007/s11423-023-10212-5, Aacute, S., Oacute, E., Pez, J. E., Iacute, S., & Vazquez-Cano, E. (2019). With AA batteries and DC motors, students make their own robots and learn about open and closed circuits. In addition to building robots, students interested in robotics can explore the challenge of controlling robots, various approaches to designing robots, and the relationship between living organisms and robots. Snapologys newest and most advanced robotics classes feature autonomous robots powered and controlled via bluetooth technology. CT leadership toolkit. https://doi.org/10.1080/15391523.2021.1967817, Qiao, X., & Zhou, X. T: Motor-related programming instructions; Using programming software for automatic cyclic control of mechanical claw, E: Mechanical claw and base construction and assembly, 1. https://doi.org/10.1016/S0742-051X(01)00052-X, Visser, M., Juan, A., & Feza, N. (2015). "I'm really excited, yes I'm very nervous," said another student. Egitim ve Bilim. Students learn about astronomy, chemistry, physics,earth science, animal life cycles and minerals & ores among other topics in our programs. Research on the integration of STEM education into the rural elementary school science curriculum: An example from rural elementary Schools in Western China. Teach the naming principles of LEGO blocks, 2. Minecraft + Robotics Camp In V. S. Ramachaudran (Ed. Computational thinking and tinkering: Exploration of an early childhood robotics curriculum. One hundred fifty-three third- and fourth-grade elementary school students from three different rural schools in China were recruited to participate. For younger kids, STEM camps don't have to be dry and boring. With coin cell batteries and small motors (see the Bristlebot Kit), students learn about open and closed circuits and create robots that move around because of the vibration of the motor. Journal of Science Education and Technology, 30(3), 408419. https://doi.org/10.1080/15391523.2010.10782557, Ng, O., Liu, M., & Cui, Z. https://doi.org/10.1080/10494820.2020.1799026, Yanowitz, K. L. (2016). If youre interested in finding additional online activities, take a look at my article which features, No two programs are alike, so its best to visit a programs website for information about curriculum, timing, cost, and registration or application details as you evaluate opportunities. When they discover that the robot isn't very sturdy, they are challenged to use the engineering design process to improve the robot so that it doesn't fall apart as it dances. In these activities, students will learn about designing robots, building circuits, using sensors to direct robot behavior, controlling robots remotely, and programming robots to perform specific tasks and functions. Students enjoy building the basic robots and then modify their robots to conquer various challenges and competitions. 1637). (Class size Limited to 20 students / week) Whether your child wants to explore a new topic, develop skills, or just have some fun over the summer, Massachusetts has a lot to offer. Complete the construction of the crocodile car according to the construction manual, 1. If you and your students are interested in robotics, the following Science Buddies book may be a good addition to your classroom or home library shelves! https://doi.org/10.1007/s41686-017-0005-1, Korkmaz, ., akir, R., & zden, M. Y. (2014). Games and activities related to controlling robots and providing remote control instructions enable non-electronic exploration. Effects of robotics STEM camps on rural elementary students self-efficacy and computational thinking. Rural science education: Valuing local knowledge. From scavenger hunts, defend the castle and magic movements to pinball wizard, ramp racers, secret . Cooperate with partner to build the block bird according to the building manual, 3. PubMedGoogle Scholar. High Ability Studies, 15(1), 85102. Snapology is proud to offer competition robotics for students ages 6-14 via FIRST LEGO League and FIRST LEGO League Junior. https://doi.org/10.1007/s10956-020-09882-0, Makgato, M. (2007). In the Build a Robot Hand activity, students think about the design of robotic "hands" created to perform specific tasks or used for prosthetics. Lesson Plans and Activities to Introduce Students to Robotics, Projects and Lesson Plans for Intermediate Robotics, Projects for Continued Robotics Exploration, Explore Robotics without Specialty Materials, Additional Support for Student and Family Exploration, Exploring robotics without specialty materials, how this family explored the brushbot for Halloween-themed robotics at home, Build a Bristlebot, a Tiny Toothbrush Robot. In this summer robotics camp hosted in partnership with Redlands Unified School District, high school students build functioning robots and use a controller application to interact with it - being introduced to college-level STEM activities in a low-stress, fun environment. Suite 343 Winston Chung Hall Riverside, CA 92521, tel: (951) 827-2484 email: roboticsms@engr.ucr.edu. Kids get to work on fun projects like creating a video game, building a catapult, or working on science experiments. Robotics for Kids. Journal of Educational Computing Research, 56(7), 9791004. Get new articles and updates delivered to your inbox. The C-STEM Robotics Camp curricula engage students in hands-on learning of math, seamlessly integrated with coding, engineering, science, art, and music via robotics. Eight fourth- and fifth-graders, along with the STEM and Agriculture teacher April Smith, asked Marc Deshusseswhen, Ph.D., questions about biogas. All rights reserved. With the Drone Control with an Analog Joystick activity, students can integrate an analog joystick controller for steering. In addition to learning robotics concepts, students apply engineering, physics and mathematical concepts during these programs. We use cookies to ensure that we give you the best experience on our website. Learn MorE ABOUT HIGH SCHOOL ROBOTICS CAMPS, Get InvolveD IN HIGH SCHOOL ROBOTICS CAMPS, Learn More about the college's outreach programs, 900 University Ave. Explore mechanical knowledge, types of gears, and transmission principles, 3. All Rights Reserved. Her blog explores topics related to raising children who are comfortable, competent, capable, and confident around science, technology, engineering, and mathwhether theyre headed for a STEM career or not. Students will use sensors and coding to complete challenges and compete against their peers. Four Fun Builds in One BlueBot Robotics Kit!, What computer/devices are required for the UCR Elementary Robotics Camp? By using our site, you consent to our use of cookies. After building the four core BlueBot robots (described above), students interested in more sophisticated robots and programming can combine the BlueBot with an Arduino to take their robots to the next level. Options include experiments and projects in Video Game Creation, Robotics, Veterinary Science, Crime Scene Investigation, Paleontology, Engineering, Space, Biology, Chemistry, Oceanography, LEGO Robotics, Medicine, Programming, 3-D Printing, Drones and more. What we're looking for: community partners. Journal of Formative Design in Learning, 1(1), 3144. https://www.youtube.com/watch?v=Q1zToREgV0c, Art Bot: Build a Wobbly Robot That Creates Art, https://www.youtube.com/watch?v=daWU2Oh_xlg, Building JunkbotsRobots from Recycled Materials, https://www.youtube.com/watch?v=l-VWX6ndGpA, Roaming Robots: Build Your Own Underwater Robot, this family learned while building a dancing robot, https://www.youtube.com/watch?v=cRoxOY0AJXo, https://www.youtube.com/watch?v=-cilOho6l3Q, Build a Motion-Activated Guard Robot (BlueBot Project #1), Build a Speedy Light-Tracking Robot (BlueBot Project #2), Build an Obstacle-Avoiding Robot (BlueBot Project #4).
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