The H2GP SPRINT Car can be purchased as a Classroom Pack that includes 6 kits for up to 24 students or separately as a single package.
Developed to help students harness the power of hydrogen.
12-24 STUDENTS SPRINT Classroom Equipment
H2GP SPRINT Classroom Pack
6x H2GP SPRINT car (RESK-03)
The H2GP SPRINT classroom pack is your complete classroom solution, allowing up to 24 students to dive into the thrilling world of hydrogen racing. Six fuel-cell electric SPRINT cars encourage students to work in teams, designing the fastest car possible capable of outcompeting their peers. The classroom pack comes with a comprehensive curriculum, giving students an understanding of not only hydrogen fundamentals, but also climate change, historical and cultural connections, and fuel cell electrical systems.
H2GP SPRINT Practice Track (RESK-03-PT)
Bring hydrogen racing to any location you can imagine.
Our lightweight, on-demand 10m practice track allows you to race Sprint cars virtually anywhere – a school gym, a classroom tabletop or even down the hallway.
The track is made from durable and flexible materials, meaning it’s built to withstand anything kids put it through. To bring hydrogen racing to any location imaginable, simply roll up the track for a quick, easy storage and transport solution.
Please note that the track must be ordered separately.
LIMITED OFFER
Available now as a limited offer, the H2GP Sprint Launch Bundle includes 2 x H2GP Sprint Classroom Packs (12 hydrogen cars), with 2 x Practice Tracks added on free of charge. This means 24-48 students can explore the exciting world of hydrogen racing with their own dedicated practice tracks.
2-4 STUDENTS H2GP SPRINT Car Kit
Each individual H2GP Sprint Car Kit allows you to:
Harness Hydrogen Power:
Generate your own hydrogen with our portable electrolyzer, use this hydrogen in our PEM Fuel Cell to power the electric motor.
Build an FCEV Car
SPRINT’s custom-made, easy-to-assemble chassis means students can build their car in minutes. After they get the hang of it, they’re encouraged to experiment with gear-to-wheel ratio, weight distribution or even begin creating their own designs using 3D modeling software.