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Fuel Cell Car Science Kit

Elementary School Middle School High School

Horizon’s Fuel Cell Car Science Kit enables students to discover the principles behind the real-scale fuel cell vehicles currently being rolled out across the world. 

FCJJ-11 Fuel Cell Car Science Kit

Fuel Cell Car Science Kit - product overview

Horizon’s Fuel Cell Car Science Kit enables students to discover the principles behind the real-scale fuel cell vehicles currently being rolled out across the world. Power an electrical circuit by solar panel or a wind turbine with profiled blades based on NASA aeronautics. Generate hydrogen through water electrolysis and convert it into electricity using a PEM fuel cell. Whichever combination of technologies you want to explore, this science kit is a comprehensive introduction to the principles behind renewable microgrids.

  • Investigate reaction yields, reduction and oxidation, and other chemistry concepts by performing electrolysis reactions.
  • Learn about conservation of energy, electric power, and other physics concepts by modifying your fuel cell car.
FCJJ-11 Fuel Cell Car Science Kit


Hydrogen: Fuel of the Future

Hydrogen offers the promise of a sustainable energy source for the future of transportation, and the potential to greatly reduce CO2 emissions. Hydrogen is the most commonly occurring element in the universe. It is a colorless, odorless, non-poisonous gas that is lighter than air. Hydrogen is one of the most important alternative fuels for the future, because it has the ability to replace all the fossil fuels used on the road today, and thus to reduce greenhouse gas emissions. The governments of countries around the world see the promise of hydrogen and are investing billions of dollars in research and development for hydrogen energy technologies. The U.S. Department of Energy has a Hydrogen Program that is working with industry, schools, laboratories, and other government agencies to overcome the obstacles standing in the way of widespread fuel cell adoption. They are addressing issues in hydrogen production, delivery, storage, safety, and fuel cell technology itself. According to HyWays, a research project funded by the European Union, building a hydrogen infrastructure in Europe would allow for a reduction in CO2 emissions from automobile transportation of over 50 percent by 2050, and it could be done in an economically acceptable manner. A critical hurdle for the use of this innovative fuel that must be overcome is the distribution of hydrogen to individual automobiles. A large network of hydrogen fueling stations would need to be installed, just like our current network of gasoline fueling stations. This is only economically viable and feasible as a large-scale effort. Strong joint efforts from all of the stakeholders in both the public and private sectors is crucial to the successful adoption of hydrogen technology.


What is included in the horizon energy curriculum? The lab equipment is just the beginning. We’ve built the horizon energy curriculum to provide teachers with multiple resources for engaging their students.

Materials provided

  • Hands-on Lab Activities
  • Teacher's Guides
  • Student's Guides

Concepts covered


Chemistry Concepts

Electrolysis, Energy, Hydrogen Generation, Reaction Rates, Reactions, Redox Reactions


Physics Concepts

Classical Mechanics, Efficiency,  Energy, Ohm's Law,  Power (Electric)


Earth Science Concepts

Renewable Energy



pdf [2.68 MB]

User Manual

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Teacher's Guide You need to be Logged in to download these files

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Student's Guide You need to be Logged in to download these files

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Buy Fuel Cell Car Science Kit

  • Training videos
  • Curriculum
    Experiments 6
    Lesson time 4-8 hours
    Teacher's guide 28 pages
    Student's guide 20 pages
Fuel Cell Car Science Kit




Fuel Cell Car Science Kit - FAQ

1. The water levels do not drop when the gas outlet tubes on both sides of the fuel cell are unplugged.

Check whether the spaces on the wall of the inner cylinder are blocked. If so, turn the inner cylinder until water enters the spaces and fills up the inner cylinder.

2. The reversible fuel cell does not produce hydrogen and/or oxygen.

a. Check whether the wires are appropriately connected, and whether there are any loose connections. The fuel cell could be completely destroyed if the red wire of the battery pack is connected to the black jack of the fuel cell.

b. Check whether the switch of the battery pack is in the “on” position.

3. The water electrolysis process slows down.

a. Add water to the oxygen side of the fuel cell and wait for about 5 minutes.

b. Replace old AA batteries with new AA batteries inside the battery pack.

4. The car stops moving while there is still hydrogen left inside the tanks.

a. Purge the gases and perform water electrolysis for 4-5 minutes. Unplug the hydrogen gas outlet tube and oxygen gas tubes to purge the gases. Perform water electrolysis again until the hydrogen tank is filled, and connect the motor to the fuel cell. If the problem persists, go to the next step.

b. Let the water electrolysis process last about 10 minutes to consume the residual water. To push water out of the fuel cell, purge the gases. Perform water electrolysis once more until the hydrogen tank is filled, then connect the motor to the fuel cell.

Packing Information

Case Pack Quantity (units) 1 Unit Volume (Cubic Meters/Litres/Feet) 0.011 / 10.53 / 0.372
Master Pack Quantity (units) 12 Unit Box Weight (kg/lbs) 1.75 / 3.87
Packaging Type cardboard Case Pack Lenght (cm/in) 62 / 24.41
20´ Container (units) 2760 Case Pack Width (cm/in) 44 / 17.32
40´ Container (units) 6480 Case Pack Height (cm/in) 35 / 13.78
Unit Box Length (cm/in) 32 / 12.6 Case Pack Volume (Cubic Meters/Litres/Feet) 0.095 / 95.48 / 3.37
Unit Box Width (cm/in) 23.5 / 9.25 Case Pack Weight (kg/lbs) 15.91 / 35.08
Uni Box Height (cm/in) 14 / 5,51


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