Robotics_logo1

Suitable for: 6th-9th grade
Average lesson duration: 90 minutes

Locations & Registration

Find your nearest Young Engineers centre

Associated Hebrew Schools of Toronto

Start Date: January 17, 2019

Numbers of Lessons: 9

Thursday

3 : 30 PM - 4 : 40 PM


Price: 261 CAD

Noam

Maple

1 to 5 Grade

Start Date: February 11, 2019

Numbers of Lessons: 10

Monday

5 : 00 PM - 6 : 00 PM


Price: 2870 CAD

systems on the Earth-section 1-( Wind,flow and more)

Concord

Ages 4 to 6

Start Date: March 27, 2019

Numbers of Lessons: 10

Wednesday

5 : 00 PM - 5 : 45 PM


Price: 300 CAD

week 1 june 24-summer camps ages 4-10

Thornhill

1 to 5 Grade

Start Date: June 24, 2019

Numbers of Lessons: 5

Monday

9 : 00 AM - 6 : 00 PM


Price: 225 CAD

Robotic and Software Engineering (R&SE), course focuses on exploring the world of robotics from a professional engineering perspective. Special emphasis on programming solutions promotes the creation of sophisticated and accurate robots.  This encourages the comprehensive learning of science, technology, mechanical and software engineering, and math (STEM).

In order to provide a real life simulation of the complex engineering challenges that exist in the industry, R&SE enrichment program uses extensive teamwork and collaborative efforts. The program is modeled after university engineering curricula in order to prepare students for the industrial world. Participants will tackle engineering challenges similar to that of university courses and solve them by using the EV3 graphics programing.

Overview of Robotic and Software Engineering curriculum

e2 Young Engineers enrichment program teach in such a way that our instructors build upon previous programs’ curricula. We always encourage newcomers and reteach lessons to make sure all students are up to speed. R&SE develops a wide range of mechanical and software engineering skills.

In addition to lessons learned in our RoboLEGO program (please read RoboLEGO page for more information about its curriculum), in R&SE students will learn commands, conditions, loops, planning methods, dynamic programming, applied mathematics, and operators.

Robotic and Software Engineering secondary objectives:

  • Improve procedural, logical and Algorithmic thinking
  • Advances program engineering capabilities
  • Cultivate students’ ability to solve complex engineering challenges using mechanical and programing solutions together
  • Foster program-mechanic optimization problems skills
  • Develops mathematical processing
  • Improve time management and teambuilding skills
  • Expand critical and creative thinking.
  • Acquiring information system and media literacy

Robotic and Software Engineering building model themes:

  • Amusement park
  • Heavy construction equipment
  • Vehicles
  • Robots to perform complex missions
  • Gadgets and games