Our Big Builders will construct 3D models using flexible parts. Students will receive kits complete with building tools and parts exclusively made by Young Engineers for our Big Builders program. These activities will gradually challenge participants in order to advance their fine and gross motor skills. This enrichment program will expose our builders to engineering terminology. In addition students will get be familiarized with simple concepts about the animal kingdom, larger principles of science and their everyday surroundings.
Through their play with co-builders, our young scholars will advance their interpersonal communication. They will gain confidence about his/her own ability to discover and invent.
e2 Young Engineers’ strong core values surround the concept of education through play. We believe that lessons are learned and absorbed more easily through hands-on experiential learning. That is why our students will finish the Big Builders enrichment programing having a better understanding of everyday mathematic and scientific concepts.
Big Builders lessons include discussions about shapes, spatial recognition and moveable verse immovable parts. Our instructors use proper math and science terminology familiarizing students with more accurate language of the field. Builders learn simple addition and subtraction through building their models. Students will also discover basic principles of fractions as they learn the idea of parts of a whole.
We introduce laws of physics on a basic level through demonstrations of centrifugal force, gravity, torque, stability, friction, momentum, mechanical energy, balance, compaction and drive. Additionally, because many of our models have nature/animal themes, students will learn basic concepts of biology.
Using stories and simple demonstrations to spark imagination and critical thinking, Bricks Challenge is Young Engineers’ most popular enrichment program. With the use of LEGO® building blocks in conjunction with other tools and mechanical parts, our specially trained educators inspire youth participants while teaching theoretical and applied principles of science, technology, mechanical engineering and math (STEM). In addition our students develop their abilities for independent learning and improve their building skills.
Young Engineers’ Bricks Challenge enrichment program introduces elementary school age students to basic laws of physics and the necessary mathematic equations that coincide with those scientific calculations.
Young Engineers has specially designed a brief classroom style demonstration that is immediately followed by hands-on application through building Young Engineers LEGO® parts models. Student participants of Bricks Challenge receive our LEGO® bricks kits exclusively made by Young Engineers for our programs. Each lesson is meant to inspire students to create, build and learn through a fun and entertaining LEGO® Challenge experience.
Overview of Bricks Challenge curriculum:
Young Engineers participating in Bricks Challenge can expect to finish the program having learned important theoretical and practical lessons. Bricks Challenge will introduce students to scientists and inventors such as Leonardo di Vinci, Sir Isaac Newton, Archimedes and more. Each of these important figures has played a significant role in the development of science and technology today and we use their stories’ to help inspire and educate our young engineers.
Bricks Challenge participants will gain knowledge of laws of physics such as centrifugal force, centripetal force, force of inertia, kinetic energy, potential energy, law of action-reaction, lift force, torque, leverage points, load distribution, force conservation, angular momentum and more. In addition students will learn the essential mathematic skills that go along with making the scientific calculations they will need in order to build their models.
Bricks Challenge secondary objectives
Foster planning and time management skills
Encourage independent creative thinking
Develop ones ability to analyze engineering processes
Broaden knowledge of laws of physics and various natural phenomena
Improve spatial recognition
Cultivate a sense of self-efficacy
Expand interpersonal communication skills
Bricks Challenge building model themes
Amusement park rides
Various types of transportation machines
Average lesson duration: 75 minutes
Students participating in e² Young Engineers’ Galileo Technic advanced enrichment program will get hands on experience that will prepare them for their future the working in 21st century. Participants will be taught to use expert level engineering thinking, using math and physics to solve problems and build efficient machines. Using that professional engineering perspective students will learn to focus on identifying appropriate solutions for a given problem. In addition they will work in groups, promoting team building to construct complex mechanisms.
4th-8th grade or graduates of
one of the Young Engineers mechanical engineering programs
Average lesson duration: 60/90 minutes
Using LEGO® parts and LEGO® WeDo graphic programming to build robots, Robo Bricks enrichment program participants learn software engineering, technology, entrepreneurship and math (STEM). During each lesson, students will assemble a robot that will preform a predetermined task. Constructing these robots will develop each student’s ability to create computer algorithms and capability to implement those computed codes.
Each student in Robo Bricks enrichment program will design a software and mechanical engineering project. Students will be critiqued by potential “investors” after they present their project proposals. This enrichment program introduces its participants to many important professional skills that we hope they will later be able to employ in their careers.
Overview of Robo Bricks curriculum
e² Young Engineers believes teaching our students in such a way that each enrichment program builds upon previous programs’ curricula. We always encourage newcomers and reteach lessons to make sure all students are up to speed. Robo Bricks introduces participants to the world of robotics through lessons of mechanical engineering.
This enrichment program teaches practical software and mechanical engineering principles such as: algorithm planning, formulation of pseudo code, flow charts, We-Do Programming, input and output implementations, loops, multi-threads, keyboard operations, sensor applications, calculation commands.
Robo Bricks also introduces students to realistic professional skills and the world of entrepreneurship. We teach our participants about market study, product page, how Google works, Microsoft Power Point, rhetorical methods.
Robo Bricks secondary objectives
Introduce algorithmic thinking
Learn English software engineering terminology
Encourage procedural thinking
Time management through submitting final project by a given deadline
Improving presentation skills
Working in teams efficiently
Familiarization with computer orientation
Gaining information system and media literacy
Progressing critical and creative thinking
Robo Bricks building model themes:
Gadgets and games
Modern Robots to execute different tasks
Average lesson duration: 90 minutes
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 programming.
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 programming solutions together
Foster program-mechanic optimization problems skills
Develops mathematical processing
Improve time management and team building skills
Expand critical and creative thinking.
Acquiring information system and media literacy
Robotic and Software Engineering building model themes:
Heavy construction equipment
Robots to perform complex missions
Gadgets and games