This summer, I embark on an epic quest. With 8 students from MIT and UC Berkeley, I’m cycling 4,000 miles from San Francisco to Washington. Along our journey, we will teach hands-on science classes to a total of 1,000 high-school students on topics we deeply care about, organized as “Learning Festivals”.
Classes range from “How to build a heliostat solar panel?” to “How does the brain work?”. Each Learning Festival will end with a session in which we invite students to work on their own ideas. The goal of our journey is to let children experience the joy of learning and the power of turning ideas into reality.
For email updates of the highlights of our journey (2x per month), please leave your information here. I keep another blog during the summer, please find it here.
How can you help?
Thank you for taking the effort of reading this page! There are several ways in which you can help:
(1) We are looking for teaching locations across the country (see the map below). Are you in touch with school teachers, librarians or summer camp leaders along our route? Please introduce us, spokes [at] mit [dot] edu!
(2) We will be camping all the way. Do you have friends who live along the path, who are happy to host 8 students for a meal or a night? Please introduce us, spokes [at] mit [dot] edu!
(3) This journey will lead into a structural organization to support children in developing their own ideas beyond summer. Do you want to work on or fund the future of hands-on learning? Definitely reach out, spokes [at] mit [dot] edu!
Along our journey, we are supported by a large team of web designers, educators and funders. During our trip, we will be 8: 6 MIT students, 1 UC Berkeley student and myself .
1. COMPUTERS, ART: The algorithmic beauty of plants
Do you like computers, plants, or art? How about the intersection of all three? In this course, we explore the recursive structure of plants and learn how to make pretty pictures of trees, flowers, and abstract fractal-like patterns using a clever technique called L-systems. Everyone will have a chance to create their own computer-generated works of art inspired by life.
2. NEUROSCIENCE, GAMES: EyeWire: a game to map the brain
EyeWire is a puzzle-meets-coloring book online game that enables its players to contribute to the brain mapping initiative, which was announced by President Obama in March. Developed in part by one of the Spokes teachers in the Seung Lab at MIT, the game teaches its players how to trace the “branches” of neurons through 3D reconstructions of brain tissue. To do this task, players “spot check” computer algorithms, with the ultimate goal of obtaining a connectivity map with synaptic-scale resolution of the “connectome.”
3. ENERGY, CONTROL SYSTEMS: Build your own solar panel heliostat
Through assembling their own solar panel heliostat, students will gain insight into the fundamental working or energy from renewables. This class combines knowledge in mechanical engineering (designing a technical system), computer science (programming an arduino) and electrical engineering (soldering the board).
4. FOOD, GARDENING: How to grow your own vegetables: inside, for free!
Don’t you wish you know how to make your own delicious food? With a few old plastic gutters, a handful of plant seeds and a bit of daily care, you will grow your own veggies in no-time! Add in a few quick and easy recipes, and you will be the most popular chef in your high school – period.
5. MUSIC, PHYSICS: The Science of Music
Music has been called the universal language. In some sense its building blocks of rhythm, harmony, and melody arise from the nature of the human mind. But there are still a lot of unanswered questions! Come learn about the math, physics, and psychology behind the music we love and how to take a scientific approach to solving its mysteries.
The class I will teach is called: “Grow your own vegetables – the joy of making what you’re eating”. I have created an entire outline of my class (using pictures, very few words) here.