NEW: Aug. 17, 24, Sept. 7, 14: Coding for Robots (Grades 4-7)
Sundays 1pm-4pm, Aug 17, 24, Sept 7, 14
Recommended for beginning students in 4th-7th grade.
This camp is designed for students with little or no prior programming experience. Using VEX IQ Blocks, campers will learn how to write their own code to control a robot through fun and engaging challenges.
Through structured lessons, students will explore core programming concepts such as loops, conditionals, and events, while also learning to program and use sensors — including distance, color, optical, and inertial sensors. By the end of camp, students will use these tools to build simple autonomous routines and solve real-world robotics challenges.
⚠️ Note: This is a true beginner-level camp. Students with significant prior coding or robotics experience may find it too basic.
This class will be at held at the Roseville Venture Lab, 316 Vernon St STE 110, Roseville, CA 95678. Just down the street from the Placer Robotics Center.
💻 Campers are encouraged to bring their own computer (laptop or Chromebook), if available. Test your device ahead of time at https://codeiq.vex.com/.
Note: This class is intended for new programmers. Minimum number of signups required. If minimum is not met, we will refund 100% of your fees.
Sundays 1pm-4pm, Aug 17, 24, Sept 7, 14
Recommended for beginning students in 4th-7th grade.
This camp is designed for students with little or no prior programming experience. Using VEX IQ Blocks, campers will learn how to write their own code to control a robot through fun and engaging challenges.
Through structured lessons, students will explore core programming concepts such as loops, conditionals, and events, while also learning to program and use sensors — including distance, color, optical, and inertial sensors. By the end of camp, students will use these tools to build simple autonomous routines and solve real-world robotics challenges.
⚠️ Note: This is a true beginner-level camp. Students with significant prior coding or robotics experience may find it too basic.
This class will be at held at the Roseville Venture Lab, 316 Vernon St STE 110, Roseville, CA 95678. Just down the street from the Placer Robotics Center.
💻 Campers are encouraged to bring their own computer (laptop or Chromebook), if available. Test your device ahead of time at https://codeiq.vex.com/.
Note: This class is intended for new programmers. Minimum number of signups required. If minimum is not met, we will refund 100% of your fees.
Sundays 1pm-4pm, Aug 17, 24, Sept 7, 14
Recommended for beginning students in 4th-7th grade.
This camp is designed for students with little or no prior programming experience. Using VEX IQ Blocks, campers will learn how to write their own code to control a robot through fun and engaging challenges.
Through structured lessons, students will explore core programming concepts such as loops, conditionals, and events, while also learning to program and use sensors — including distance, color, optical, and inertial sensors. By the end of camp, students will use these tools to build simple autonomous routines and solve real-world robotics challenges.
⚠️ Note: This is a true beginner-level camp. Students with significant prior coding or robotics experience may find it too basic.
This class will be at held at the Roseville Venture Lab, 316 Vernon St STE 110, Roseville, CA 95678. Just down the street from the Placer Robotics Center.
💻 Campers are encouraged to bring their own computer (laptop or Chromebook), if available. Test your device ahead of time at https://codeiq.vex.com/.
Note: This class is intended for new programmers. Minimum number of signups required. If minimum is not met, we will refund 100% of your fees.
Overview
Experience Level: Beginner
4 Day Summer Camp on Sundays, 1pm-4pm each day. Aug 17, 24, Sept 7, 14.
Format
Small groups, team programming (2 per robot)
4-6:1 camper to counselor ratio
Coding for Robots and Sensors using IQ Code Blocks. Campers are recommended to bring their own computer (laptop, chromebook) if available
Complete Autonomous Programming Challenges using Gyroscopic, Inertial, Optical, Color and Touch LED Sensors
