Children will design 3D objects, convert them into readable code and print them. From concept to finish, a process is followed and creativity unleashed.
PROGRAM DETAILS
• Five-day, Monday to Friday program:
9:00 a.m. to 4:00 p.m. each day
• Optional extended care:
8:00 – 9:00 a.m. $50 per week and/or
4:00 – 6:00 p.m. $95 per week
• Hot lunch included at Endicott College
• Apply for our Counselor in Training (CIT) program:
Rising 10th-12th grade students call (315) 773-5673
• Limited to 10 children, rising 6 to 9th grade
Grouped according to age!
• Scholarships available by calling (315) 773-5673
• $25 sibling or multi-session discount applies
• Share a referral coupon code!
• Child to instructor & assistant ratio is 5:1 or less
• Your instructor: Elliot Shumsky, inventor
YOUR INSTRUCTOR
Elliot Shumsky
Inventor
Elliot will use physical models to introduce your child to hydrogen fuel cell technology. Why you ask? Because they will design and 3D print a model car chassis that supports a hydrogen fuel cell, hydrogen fuel tanks, an electric motor, gear box, axles, wheels and whatever else your child comes up with!
Elliot has been building his own 3D printer that works upside down! He will bring this to the classroom as an example of starting with an idea and turning it into a working prototype. As a robotics team leader, he is eager to share his knowledge.
Program Curriculum
Children will begin by getting familiar with a 3D printer. They will learn how the different components work together, while watching a print in progress. The instructor will then walk everyone through a sample project, while the children follow along:
• Create and modify a 3D design
• Slice a design, turning it into printable code
• Print the design
• Evaluate the print progress and final print
• Share lessons learned
• Repeat!
- Learn more
Just getting started in 3D printing? Maybe you already have some experience and you want to take your skills to the next level? Then this STEM program is for you! Here are some key take-aways for the week:
- What kinds of 3D printers are there?
- What kind of printer is best for me?
- How would I go about building a printer?
- How do I set up a printer?
- What about printer troubleshooting & maintenance?
- Do print beds differ and why does this matter?
- Form & function in engineering design
- Collaboration with team members and why it matters
- An introduction to CAD, using Onshape
- Using PRUSA to slice; essential things to know!
“Edge on Science takes science off the page and puts it into the hands of your child.”
– Rondalyn Whitney, mom
“Edge on Science has been a wonderful learning experience for my grandson. He has enjoyed every minute of it (rocketry & bridge building).”
– Carole Bradley, grandmother
“Edge on Science went above and beyond to make sure our spring break program was fun and interesting. Well prepared!”
– Bernadette Kegan, program director, Acton-Boxborough School District
In this STEM program children will get to work with the setup and maintenance of printers in the classroom. Oh and there will be one printer per two children, meaning that there will be lots of access to printing! This fun week touches on material science and choices in design, prototyping and manufacturing. At the end of the week, your child will get to showcase their special interest, in a mini science fair. It might be their printed projects and what they learned from them. It may be the components, that make up the printer itself, or it may be the application of 3D printing. Engineering imagined!
Why choose EOS 3D Printing & Design?
It is fascinating and satisfying to watch something you have designed, be turned into an object you can hold. Additive manufacturing has already transformed product development and will continue to do so, in ways we have yet to imagine. Your child will learn the process of designing, engineering, prototyping, making and evaluating. They will share their discoveries and lessons learned. Invest in their tomorrow! And that Corvette? Before it went into production, it was prototyped using 3D printing. In fact, their cars that raced at Daytona had 75 printed parts.
Register Now for 3D Printing & Design!
