Tag Archives: wonderbox

Robot World

Build your own robot and a magical world in this after-school activity for grades 4-5. These fun little creatures can roam around, shake their heads and flap their wings, at the touch of a button. 

Create your own artistic robot! Learn how to make your robot move in a variety of ways, as well as play sounds and light up, using a programmable Arduino board. Decorate your animated character, give it a story, and create a magical world for it to live in. All materials are included in this course: you can take your robot home when the class ends.

This Maker Art class for grades 4-5 takes place at the Lycée Français in Sausalito. We meet every Tuesday for 12 weeks, from 3:30 to 5pm, between September and December 2017.

Students develop new skills in playful ways: science, technology, engineering, art and math skills (STEAM), as well as creativity, problem-solving and communication skills.

Teachers are multimedia innovator Fabrice Florin and software designer Edward Janne.To learn more, view our photo albumcourse slides and student guide — and check our course page for updates.

 

Who is it for?

This program is for lower school children in grades 4 and 5 (ages 8-10). We expect between 6 and 10 students to participate in our afternoon class in Sausalito this fall.

 

Where and when is it?

This class takes place at Lycée Français in Sausalito, in the Innovation Lab (Room #340). The school entrance is 660 Coloma Street, Sausalito, CA 94945.

We meet every Tuesday for 12 weeks, from September 12 to December 5, 2017, from 3:30pm to 5:00pm, at the Lycée Français in Sausalito.

Here is our course schedule:

  • Sep-12: Plan the robot world
  • Sep-19: Learn about robots
  • Sep-26: Build your robot 1
  • Oct-3: Build your robot 2
  • Oct-10: Program your robot 1
  • Oct-17: Program your robot 2
  • Oct-24: Break: No Class
  • Oct-31:Program your robot 2
  • Nov-7: Break: No Class
  • Nov-14: Finish your robot
  • Nov-21: Create the robot world
  • Nov-28: Rehearse your show
  • Dec-5: Shoot videos
  • Dec-12: Show & Tell

Can we see pictures from the classes?

Here are some of our first photos from this class.

You can see more pictures in our photo album.

 

What are students learning?

Students are creating their own robot and interactive art, in a playful way that makes learning more fun. Working collaboratively, they make their bots move, bringing characters to life and interacting with others in their new ‘robot world.’

This unique combination of art and technology helps them develop a range of new skills:

  • critical thinking and problem solving
  • Arduino, robotics and programming
  • science, technology, engineering, art and math skills (STEAM)
  • creative expression, communication & collaboration skills

Learn more in our course slides and student guide.

 

Do you also teach this class for adults?

Yes! We taught a Create a Robot class for adults and teens at Tam Makers in Mill Valley.

In just two evenings in September 2017, we showed students how to build their own artistic robot with Arduino, make it move around, shake its head and wave. And they got to take their animated creature home with you, to impress friends and family. 🙂  We may teach more adult classes in the future. Check out our classes page at Tam Makers.

 

What materials are included?

Each student will receive a robot kit, which they will learn to assemble, control and program.

For this class, we have created our own robot kit, using an Arduino Feather M0 for the robot, an Pro Micro for the remote, a custom chassis, plus three additional servos and more parts. Our robot kit is similar to commercial kits, but with a lot more features at a lower cost. This robot kit will be decorated by the students to create an interesting animated character. Learn more about our robot kit in our student guide.

This robot kit supports these features:
Roaming – the bot can move around under user control
Moving – the bot can move some body parts (turn its head, wave its arms, using servos)
Inputs – the bot has a variety of buttons (on/off button, buttons for different gestures, etc.)
Remote – the bot can be controlled remotely (using a remote control or desktop app)
Lights – the bot can have lights in its body (LEDs that blink, glow, or fade on and off)
Sounds – the bot can play audio (using piezo buzzer to play simple beeps and tunes)
Programming – the bot is easy to code (with visual programming tool like Snap4Arduino)
Flexibility – the bot can be expanded (with extra parts to be ordered separately)
Pricing – the bot is affordable (we’re aiming for a maximum of $75 per robot)

We plan to use the school’s Macs to program the robots, using the Arduino software and a visual programming tool like Snap4Arduino. Arduino code will be shared with parents when class ends, if students want to continue to program their robot at home.

 

What do the robots look like?

We’re still creating our robots, but the photo above shows what they look like in early stages of development. Students designed their own characters from scratch during the first classes, and we then laser cut wooden figures based on their designs. In coming weeks, they will paint and decorate them. You can track our progress in our photo album.

Here are a few photos of our first prototypes, made with laser-cut wood figures and servo motors (to see them in action, watch our video). We call them ‘Bambots’. This name is short for ‘Bamboodu Robot’: it is inspired by the fictional Bamboodu tribe we created for art projects like the Bamboodu Float and the Pataphysical Slot Machine.

Bambots like to shake their heads and flap their wings back and forth. The photos below show other prototypes of a Bambot Angel and an Bambot Dude, in different stages of construction.

For more pictures of this course, see our photo album.

 

What will the robot world look like?

We will invite students to create a magical world for their robots, as well as decorate it.

The world could be set in any location, as long as it has flat terrain that the robots can easily roam on. The mockup above shows what our robots might look like on Mars, for example.

We will ask students to decorate their robots so they look like characters in that fantasy world. For a closer look, watch our video or see our photo album for this course.

 

Who are the teachers?

Multimedia innovator Fabrice Florin and software designer Edward Janne are teaching this course.

Fabrice Florin

Fabrice is an art maker and social entrepreneur who creates unique experiences to inform and engage communities through digital and physical media. He has led the development of many pioneering products in education, news and entertainment, working with innovators such as Apple, Macromedia and Wikipedia. He is now a teacher and artist at Tam Makers in Mill Valley, where he teaches maker art to adults and kids. Learn more at fabriceflorin.com .

 

Edward Janne

Edward is a software developer and teacher at Tam Makers. He has an extensive background in interactive design and engineering. Prior to joining us, he was a technical animator at Bonfire Labs, a creative content agency. He also studied at the Academy of Art University and the University of San Francisco. Edward has taught several Maker Art classes with us, and will lead more classes for adults and teens at Tam Makers this fall.

 

How can I learn more?

To learn more, view our photo albumcourse slides and student guide — and check our course page for updates.

Also read this overview of our Maker Art classes, and visit our site for Tam Makers, our community makerspace in Mill Valley.

For more info, email Fabrice at fabriceflorin-at-gmail-dot-com.

Time Machine at the Lycée

Travel through time and meet characters from the past, present and future!

Our Maker Art class at the Lycée Français created a Time Machine with animated scenes and characters from the age of dinosaurs to the 50th century. This interactive art exhibit integrates physical and digital media, combining art, technology and storytelling.

Our 4th and 5th graders created their own scenes from the past, present or future, and brought them to life with motion, lights and sounds. Then also worked in teams to build interactive features to showcase their scenes: keypad, spinner and doors.

See also: video, slides, photos and design spec.

What does it look like?

Watch the video above to see the Time Machine in action. Some photos are also included below. See more in our slides.

Students

This program was designed for lower school children in grades 4 and 5 (ages 8-10). Nine students participated in this class: Tilo Allexandre, Esther Bomse, Theodore Carman, Louise Eddy, Nathanial Jenkins, Lena Jessen, Eugene Maeght, Yann Menard and Marshall Patron.

Here’s a survey report on what students thought of this class: they found it very good, liked learning about Arduino, and most would recommend this class to a friend.

What did students create?

Students created their own interactive ‘wonderboxes’ for these time periods:

  • Age of Dinosaurs
  • French Revolution
  • World War 2
  • World War 3
  • New York 2092
  • Alien Invasion
  • 25th Century
  • 50th Century

They brought their characters to life inside their cardboard ‘wonderboxes’ by making lights blink, sounds play and things move.

Working collaboratively, they also created these Arduino-powered features:

  • Dashboard with keypad
  • Spinner
  • Doors with lights

 

What did students learn?

Students learned to design a miniature world, build it with a variety of tools, animate it with electronics, and tell its story in presentations at the Lycée in Sausalito — and at Marinovators at the College of Marin on April 22 (see photos). We also showed them how to program the popular Arduino board to create a cool interactive art experience.

This unique combination of art and technology helped them develop a range of new skills:

  • critical and logical thinking;
  • science, technology, engineering and math skills;
  • electronics, circuits, lights, motors and soldering;
  • Arduino and computer programming;
  • creative expression and storytelling skills;
  • communication, collaboration and social skills.

See also: video, slides, photos and design spec.

 

Location

This class took place at Lycée Français in Sausalito, in the Innovation Lab (Room #340). The school entrance is 660 Coloma Street, Sausalito, CA 94945 (see Google Map).

 

Schedule

We met every Thursdays for 12 weeks, from January 5 to March 30, from 3:30pm to 5:00pm, at the Lycée Français in Sausalito.

Here is our course schedule:

  1. Plan our time machine (Jan. 5, 2017)
  2. Design the time machine (Jan. 12)
  3. Create your time scene (Jan. 19)
  4. Create a character (Jan. 26)
  5. Light up your scene (Feb. 2)
  6. Build your time machine (Feb. 9)
  7. Create a feature (Feb. 16)
  8. Paint your feature (March 2)
  9. Program your feature (March 9)
  10. Finish the time machine (March 16)
  11. Write your story (March 23)
  12. Show & Tell (March 30)

(There was no class on Feb. 23.)

 

Who were the teachers?

Multimedia innovators Fabrice Florin and Edward Janne taught this course, with the help of our Tam Makers community.

Fabrice Florin – Teacher

Fabrice is an art maker and social entrepreneur who creates unique experiences to inform and engage communities through digital and physical media. He has led the development of many pioneering products in education, news and entertainment, working with innovators such as Apple, Macromedia and Wikipedia. He is now a teacher and founder at Tam Makers in Mill Valley, where he teaches maker art to adults and teens.

Learn more at fabriceflorin.com .

Edward Janne – Associate Teacher

Edward is a software engineer, teacher and active member at Tam Makers. He has an extensive background in interactive design and engineering, and a personal interest in maker education. He is teaching other classes for adults and teens at Tam Makers this spring.

Learn more about Maker Art classes here: fabriceflorin.com/teaching-maker-art/

Fabrice and Edward are both part of Tam Makers, a new makerspace in Mill Valley, CA. To learn more, visit our site at tammakers.org .

 

Teaching Maker Art

Students show off their Halloween Wonderbox at our first 'maker art' workshop at the Mill Valley Library.

Students show off their Halloween Wonderbox at our first ‘maker art’ workshop at the Mill Valley Library.

For the past couple years, I have been teaching ‘maker art’ to lower and middle school children, to help them create interactive art with electronics and storytelling.

In our after-school classes, we build magical worlds together: a city of the future, a haunted house, a time machine or a halloween wonderbox. We show students how to bring them to life with animated characters, light them up, make them move, play sounds and tell their stories.

This hands-on, project-based activity invites children to learn by doing, in a playful way that engages all their senses and puts them in charge of their own learning.

Here’s an overview of our first  classes for elementary and middle school students ages 6 to 14, in four different Bay Area schools and libraries (see list below).

Watch the video below for an overview on Maker Art. See also our separate report on the Time Machine, which we created with our 4th and 5th graders at the Lycée Français in 2017. Later this year, I will post more reports on our other projects (Haunted House, City of the Future).

Watch this video of Fabrice’s talk about our Maker Art classes at the 2017 Maker Faire.

 

What is Maker Art?

In our Maker Art classes, we invite children to create magical worlds together, combining art, technology and storytelling. Our students get really engaged in the process, which helps them develop their creative, problem-solving and social skills.

Here’s what we have learned so far from these Maker Art classes:

  • Maker art is deeply engaging
  • Art + tech + stories appeal to more learners
  • They identify with their characters
  • Creative freedom gives them license to play
  • Student-driven projects build their confidence
  • Collaborations are fun and productive
  • Family activities level the age gap
  • Wonderboxes help frame our imagination

This is what school should be like: project-based, hands-on, student-driven and collaborative.

To learn more, watch the above video of my talk on Maker Art at the 2017 Maker Faire. This 20 min. presentation gives a good overview of this promising new way to encourage children to develop their creative, problem-solving and collaborative skills (see slides).

I will give another talk about our Maker Art classes at the ReMake Education Summit in August 2017. In the meantime, check the above videos and slides, as well as these photos of our classes. I plan to write a more in-depth blog post about these findings in coming weeks. For now, here are more lessons learned, written by our team during our first experiments.

Update: In winter 2017, our Maker Art class built a Time Machine, a new time travel experience created by 4th and 5th graders at the Lycée Français. As shown in this video, our interactive art exhibit invites you to travel through time and meet characters from the past, present and future: participants created nine diorama scenes, from the age of dinosaurs to the 50th century. Read our full report on this class.

If you are in the San Francisco Bay Area, we invite you to come visit us at Tam Makers, our new makerspace in Mill Valley. We offer a range of maker classes for adults and teens. Join one of our free meetups on the First Thursday of every month, starting in September. Making art together is fun and educational!

 

Young art maker Josephine Maeght shows off the Chinese New Year Wonderbox she is creating with another student at the Lycée Français.

Young art maker Josephine Maeght shows off the Chinese New Year Wonderbox she created with another student at the Lycée Français in Sausalito.

Create Your Own Wonderbox

In our workshops, we give each student a small cardboard ‘wonderbox’ and ask them to create an interesting scene in that box, on a given theme (e.g. Chinese New Year, see below). They learn to design and build their artworks, then bring them to life with lights, motion and sound. At the end of the course, we assemble all their boxes together and ask students to tell their stories for a short video ‘show and tell’. We provide all the materials for this course and students can take their wonderbox home at the end.

This educational program invites children to develop a wide range of new skills, across multiple disciplines: from creative expression to science and engineering. They seem really engaged by the freedom to create their own interactive art, which gives them more control over their learning experience. And working collaboratively, they get to experiment together and help each other create something greater than any of them could do on their own.

Learn more about our Wonderbox workshops here. For more info, read about our first Wonderbox workshop at the Mill Valley Library, then view this video and photo album, as well as the workshop instructions. This program was developed by artists and educators at Pataphysical Studios, creators of the ‘Pataphysical Slot Machine.

 

Maker art students are creating Chinese New Year Wonderboxes with different animals from the Chinese Zodiac at the Lycée Français in Sausalito.

Maker art students created Chinese New Year Wonderboxes with different animals from the Chinese Zodiac at the Lycée Français in Sausalito.

Chinese New Year Wonderbox

Celebrate the Chinese New Year by making an art wonderbox with a paper lantern and animated character.

In this course, students get to pick an animal from the Chinese Zodiac (e.g.: dragon, horse, tiger, snake). We give them a laser-cut wood figure as a framework to build on, as well as lots of art & crafts supplies and electronic parts. Kids bring them to life by making their characters move, light up, play sound — then coloring and decorating them with markers, fabric, feathers and jewels (see photo).

Children learn to:
• Light up a paper lantern
• Make a button and circuit
• Make their animal move
• Decorate their box
• Play sounds
• Tell their story

To learn more, watch this prototype video of the Chinese New Year Wonderbox — as well as this video of our first experiments with making animals move. You’ll also find more details in our course overview.

Our lower school students seem to love this fun and educational activity. They enjoy lighting up their lanterns and making their art move — and they gain a deeper understanding of electrical and mechanical engineering, as well as creative design and innovation.

Young art maker Theodore Carman built a cardboard propeller to move his flying dragon for the Chinese New Year Wonderbox he is making at the Lycée Français.

Young art maker Theodore Carman built a cardboard propeller to move his flying dragon for the Chinese New Year Wonderbox he is making at the Lycée Français.

For example, to make their animals move, they had to explore different ways to animate their creatures: using glue sticks to make them vibrate, or hand-made paper propellers to push them forward and make other objects move (see photo). In the process, we’re all learning to create simple ‘poetic robots’ — with just a few affordable parts that anyone can assemble together.

The Chinese New Year is our theme for January and February 2016. Our next theme from March to July 2016 will be to build a City of the Future, as outlined below.

 

What will life be like in the 22nd century? Help dream up a better world and build a City of the Future. Art by Boombastik3 via Deviant Art.

What will life be like in the 22nd century? Help dream up a better world and build a City of the Future.
Future City Art by Boombastik3 via Deviant Art, freely licensed under CC-BY-NC-SA.

City of the Future

Create a city of the future with arts and electronics!

In this course, children will imagine what the world will be like in 100 years, then build a futuristic model together.

This spring, I am teaming up with teacher and builder Geo Monley to teach this cool after-school maker course for middle-school students, held in his fabulous wood shop at Tam High. We will invite kids to invent the future by building it with art and electronics, making models of what life might be like in the next century. Starting March 30, we will meet every Wednesday from 3:30pm to 5:30pm at Tam High School in Mill Valley.

Students will first make a futuristic home with a cardboard ‘wonderbox’ and a small character, featuring a new invention that might change our lives in the 22nd century. They will then bring them to life by making their characters move, lights blink and sounds play. Next, they will work with other students to assemble their boxes into a small city of the future. At the end of the course, we will make a short video of their creations — which they get to keep.

Here is a first example of what our city of the future could look like.

The City of the Future will include a row of 'wonderbox' homes in the foreground, and a city landscape in the background. It will be about 6 feet wide, 3 feet deep and up to 4 feet high, and be placed on a rolling 'maker art cart.'

This 3D model shows a first visualization for our city of the future, to be designed with our students.
Created by Fabrice Florin with Sketchup, CC-BY-SA.

Our city of the future will include a row of ‘wonderbox’ homes in the foreground, and a city landscape in the background. The model will be about 6 feet wide, 3 feet deep and up to 4 feet high, and be showcased on a ‘maker art cart’.

Learn more about this City of the Future course here.

 

2016 Courses

We taught 5 different ‘maker art’ courses and workshops in 2016, in Marin and the Bay Area:

(Update: courses grayed out below are either full or have already occurred)

Maker Art Class
Lycée Français in Sausalito – Jan. to June 2016
Weekly after-school class for children ages 6-10
Themes: Chinese New Year | City of the Future
Thursday afternoons for 90 minutes
For enrolled students of the Lycée only
Learn more

Wonderbox Workshop
Lycée Français in San Francisco – Feb. 15, 17 and 19
Special workshop for children ages 7-10
Theme: Chinese New Year
Three classes of 90 minutes each during ski week
For enrolled students of the Lycée only
Learn more

Create Your Own Wonderbox
Mill Valley Public Library – Feb 16 and 18
FREE workshop for children ages 8-10
Theme: Chinese New Year
Two classes of 2 hours each during ski week.
No experience required. Grades 3-5 only. Parents welcome.
Learn more

City of the Future
Tamalpais High School – March to May 2016
Weekly after-school class for children ages 10-14
Wednesdays at 3:30pm, for 2 hours
No experience required. Parents welcome.
With Geo Monley at Tam Makers
Learn more

Create a Haunted House
Lycée Français in Sausalito – Sep. to Dec. 2016
After-school class for ages 7-10 (grades 4-5)

Thursdays at 3:30pm, for 90 minutes
For enrolled students of the Lycée only
Learn more

 

Learn more about the maker art program in this project overview — and follow our progress in this photo album.

Next steps

Overall, this ‘maker art’ program seems like a great way to teach art and technology to school children, in a playful way that makes their learning experience more fun. So far, the students are responding well to this hands-on, project-based activity: they seem engaged by the freedom to create their own interactive art, which is music to my ears. And their parents also seem to really appreciate this fun and educational program.

To experiment with this vision, I am leading these pilot courses in 2016, with the help of my maker art community. We will determine next steps for this program after evaluating our first pilot results. Possible outcomes might include more Wonderbox workshops, a public maker space in Marin, a full line of Wonderbox kits, an online Wonderbox site for videos — and/or training programs for educators. We also hope that this program can help grow an ‘art maker movement’ over time.

For now, I am really enjoying this new chapter of my life as a maker art teacher. Designing and leading this program has been very fulfilling so far — even if it can be exhausting at times. In a sense, this is a culmination of all the work I’ve done in my career, from education to entertainment and technology, bringing together the physical and digital worlds to support better collaborations and deeper understandings.

Every decade or so, I try to re-invent myself and take a new challenge. My last decade was focused on facts and how to tell them apart from fiction — first with our NewsTrust experiment, then on a much wider scale with Wikipedia. It’s very likely that my next decade will be all about art, learning and community.

 

Art makers from Pataphysical Studios help prototype different ways to make animals move for the Chinese New Year Wonderbox course.

Art makers from Pataphysical Studios help prototype different ways to make animals move for the Chinese New Year Wonderbox course.

Thank you

I would like to thank my art and learning communities and the great team of friends who are working with me to offer these classes.

First off, I’m very grateful to the schools and libraries who are hosting this program: Andrew Sobol, Marjolaine Debord and Wladymir Wladymir Paiva and everyone at the Lycée Français; Anji Brenner and Karen Clarke at the Mill Valley Library — and Chris McCune and Betty Sue Johnson at the Tam High Union District. This classes would not be possible without their wonderful support of our cause.

I’m particularly grateful to my partners in the classroom: Cynthia Gilbert at the Lycée Français; and Geo Monley at Tam High School. Heartfelt thanks as well to my wife Phyllis for preparing the art supplies for this class, and to my art friends from Pataphysical Studios: Howard Rheingold, Jean Bolte and her daughter Natalina for their advice, creative prototypes, art supplies and help assembling the kits. Kudos as well to Tara Brown at Kithub for supplying the electronic parts.

Last but not least, it’s a real pleasure to meet parents of our students, and getting them engaged in the process. And it’s a real pleasure to be teaching their children, whose curiosity, creativity and enthusiasm are an inspiration to me.

I’m so happy to see a little community grow around our first maker art courses: I hope that over time we can turn this initiative into a vibrant community learning network.

Onwards!

Fabrice

Maker Art: Build a City of the Future

What will life be like in the 22nd century? Help dream up a better world and build a City of the Future. Art by Boombastik3 via Deviant Art.

Create a city of the future in this cool after-school activity.
Future Art by Boombastik3, CC-BY-NC-SA.

Update: This spring, we created a city of the future with lower and middle school children, ages 7-14.

We invited them to imagine what the world will be like in 100 years, combining art, technology and storytelling to express themselves and develop new skills.

We taught this after-school ‘maker art’ class in two different schools:

Children were deeply engaged by this hands-on, project-based, student-driven, collaborative activity. We think this ‘maker art’ program is a great way to learn by doing, and we would like to offer it to more children and educational partners.

Here’s our original overview for this fun and educational after-school activity.

What is it?

Create a city of the future with arts and electronics!

In this maker art course, you will build a cool model of what our world could be like in 100 years. You will first make a futuristic home with a cardboard ‘wonderbox’ and an animated character. You will then bring it to life by making your character move, lights blink and sounds play.

Next, you will assemble your boxes into a small city of the future, and landscape it together. At the end of the course, we will make a short video of your creations — and you get to keep your box when the course ends.

Who is it for?

This after-school course is for middle-school students, ages 10 to 14 (6th to 9th grades). No experience necessary!

What will students learn?

Our classes combine art and technology to help you develop a range of skills: science, technology, engineering, art and math skills (STEAM); creative expression and communication skills.

You will create your own interactive art, in a playful way that makes learning more fun. You will also collaborate with other students to build something greater than you could do on your own.

When is it?

During our spring course, we meet every Wednesday from 3:30 to 5:30pm at Tam High School’s wood shop in Mill Valley. This 2-hour class runs for 8 weeks, from March 30 to May 25, 2016.

What will it look like?

Here is a first example of what our city of the future could look like.

The City of the Future will include a row of 'wonderbox' homes in the foreground, and a city landscape in the background. It will be about 6 feet wide, 3 feet deep and up to 4 feet high, and be placed on a rolling 'maker art cart.'

This 3D model shows a first visualization for our city of the future, to be designed with our students.
Created by Fabrice Florin with Sketchup, CC-BY-SA.

Our city of the future will include a row of ‘wonderbox’ homes in the foreground, and a city landscape in the background. The model will be about 6 feet wide, 3 feet deep and up to 4 feet high, and be showcased on a ‘maker art cart’. See our course slides for more images.

Who is teaching this?

Fabrice Florin is teaching this course with Geo Monley, Cynthia Gilbert and other art makers.

As a multimedia innovator, Fabrice has led the development of many pioneering products in education, news and entertainment, working with Apple, Macromedia, Wikipedia and other digital media groups. He is a lead designer at Pataphysical Studios and is teaching several maker art courses in the Bay Area.

The Tam High course for middle school children is hosted by Chris McCune and Betty Sue Johnson at Tam District Community Education. Advisors include Jean Bolte, Tara Brown, Donald Day, Dale Dougherty, Phyllis Florin, Natalina Frederick, Cynthia Gilbert, Howard Rheingold and our art maker community. We’re grateful to them all for making this course possible!

Will you teach more courses?

Yes! We will also teach a week-long ‘maker camp’ the week of July 11, every weekday from 9am to 1pm: in this camp, we will learn to program Arduino boards to build our city of the future.

Sign up here for this summer camp.
Tuition: $325 per student. Materials and Arduino board included.

How can I learn more?

You can learn more about this project in this course overview — and read about our other ‘maker art‘ courses in 2016.

For our spring courses, you can track our progress in each school here:

If you have any questions, you’re welcome to email me — and we invite you to spread the word in your community.

We look forward to coaching more children to become art makers!

Fabrice