Robotics for Kids and Teens Made Easy

This second robotics course focuses on mechanical concepts taught by building machines using a different Lego platform. Each class involves students learning about a different mechanism and building their own simple machine. Students learn about pulleys, gears, cranes, levers and so much more. In addition to coding, students will also learn mechanics and electronics in this robotics program.

A transitionary course tapering away from building robots to focusing on developing fundamental programming skills. Designed to teach kids sequential logic in coding by instructing a robot to complete various travel and adventure challenges. Conditional statements are introduced by having the robot make decisions throughout each adventure, programmed using iPads.

Students continue to build their programming skills, this time transitioning away from iPads to using computers. An advanced Lego robotics platform allows students to start learning robotics at a higher level. Various Olympic-style challenges are designed to teach students how to use more complex sensors which assist in detecting different conditions when competing in our Robo-Games.

A fun application course designed for students to practice and apply their knowledge from previous courses.
This course is a fun way for students to practice what they’ve learned in previous classes. They’ll program Sumo robots with different motors and sensors to push other robots out of the ring. Color sensors monitor the ring’s edges, while ultrasonic sensors track the other robot. Everyone will have a great time during this class, but only one Sumobot will win in the end!

I’ll have a kale salad with Parmesan and a ginger ale please...
The final course in the Advanced Programming Skills series involves a futuristic application a– robots waiting tables in the Robo-Restaurant. Students will work independently to program their bots to bring various dishes from the kitchen to their customers, utilizing various sensors to make decisions based on their customer’s order. A fun challenge designed to promote critical thinking through programming the restaurant of the future.

A change in gears into the world of mechanical design and 3D printing!
Students will be introduced to computer design where they will produce their own creations using a 3D printer. Various design projects including art, fashion, architecture and medical devices provide students with real-world applications of 3D printing.
In the last two classes, students design, print, and assemble their own motorized race car, which they get to take home.

A fun application course designed for students to practice and apply their knowledge from previous courses.Sumo robots containing various motors and sensors are programmed to push the opposing robots out of the sumo ring.Colour sensors will keep an eye on the ring’s boundaries while ultrasonic sensors keep an eye on the opposing robot. All students will have a blast throughout this course but only one Sumobot will be left standing

I’ll have a kale salad with Parmesan and a ginger ale please...The final course in the Advanced Programming Skills series involves a futuristic application a– robots waiting tables in the Robo-Restaurant. Students will work independently to program their bots to bring various dishes from the kitchen to their customers, utilizing various sensors to make decisions based on their customer’s order. A fun challenge designed to promote critical thinking through programming the restaurant of the future.

To first course in the Mechanics series relates to the design of 3D printed mechanical parts. Students learn various design tools using Autodesk Fusion 360 to create their own designs. Starting with sketching, students complete various design projects to practice using design tools and features. Through select projects, students will practice using fundamental tools in mechanical design.Design projects are assigned for students to independently apply their design skills and create functional mechanical components that could be 3D printed.

The final course of Discovery Robotics revisits programming in preparation for the next Robotics program (ages 9-11). Students will use a text-based drag and drop coding interface to program Virtual robots to complete various fun-filled challenges. Students will practice using different types of loops and conditional statements to complete daily challenges using a variety of robot sensors.

I’ll have a kale salad with Parmesan and a ginger ale please...The final course in the Advanced Programming Skills series involves a futuristic application a– robots waiting tables in the Robo-Restaurant. Students will work independently to program their bots to bring various dishes from the kitchen to their customers, utilizing various sensors to make decisions based on their customer’s order. A fun challenge designed to promote critical thinking through programming the restaurant of the future.

To solidify the programming fundamentals learned in the first course, this project-based course allows students to apply their newly acquired coding skills. Students will use modular programming to control a multi-motor, multi-sensor robot, tackling a project rooted in real-world applications.
This course is designed to build independence, confidence, and enhance communication and problem-solving skills. After celebrating their programming abilities, students will have the opportunity to participate in a friendly robotics tournament.

An exciting course in modular programming using a complex robot to perform a Virtual World challenge. Students work on this programming challenge for the duration of the course and display their programs to the class on the last day
Game objectives and milestones are presented at the start of the course and students continue working in programming, testing and refining their programs
Students start learning about time management, strategy, and start gaining independence and experience in problem-solving

After developing programming logic with modular programming, students are introduced to text-based programming using C language. C language is a powerful and widely-used programming language in the industry.
The course begins by teaching variables, data types, loops, and conditional statements essential for programming robots.
This course transitions from graphical programming to language-based coding, offering greater control in robot design and development. A new robot platform is introduced to help students become comfortable with applying their knowledge to various types of robots.

This advanced programming course is inspired by Exceed’s Smart Cities competition, originally designed for Ryerson engineering students in 2019. In this course, students will program robots equipped with multiple sensors and motors to autonomously navigate a virtual city. They’ll develop code for tasks such as line following, flag detection, gyro-based turning, and crash avoidance, all with the goal of completing the urban challenge in the shortest possible time.

This advanced programming course is inspired by Exceed’s Smart Cities competition, originally designed for Ryerson engineering students in 2019. In this course, students will program robots equipped with multiple sensors and motors to autonomously navigate a virtual city. They’ll develop code for tasks such as line following, flag detection, gyro-based turning, and crash avoidance, all with the goal of completing the urban challenge in the shortest possible time.