• 1.800.860.6272
  • Shopping Cart

    There are 0 items in your cart.

    You have no items in your shopping cart.

    Cart Subtotal: $0.00

    Home / Science projects / How to Make a Rubber Band Car
    • How to Make a Rubber Band Car

      How to Make a Rubber Band Car

      A stretched rubber band is a great source of elastic potential energy. When released, that energy is converted to kinetic (motion) energy as the rubber band snaps back to its original size and shape. How can we tap into this energy source? Let's try using it to power a small car! (Adult supervision required.)

      What You Need:

      Buy our Balloon and Rubber Band Racecar Kit to get everything you need to build a rubber band car and a balloon car. Or, find the following materials:

      • Car body: sturdy cardboard, foam board, or balsa wood
      • Straws
      • Axles: wooden dowel that fits inside the straws
      • Wheels: use plastic bottle caps, film canister caps, foam board, toy wheels such as K'nex, wooden wheels from a craft store, etc.
      • Rubber bands
      • 2 small cup hooks

      What You Do:

      the underside of the car

      1. Cut a six-inch length of balsa wood to be the car body, or chassis. Cut a 1x1-inch notch out of one end. Your rear axle will be accessible through this notch.
      2. Cut two lengths of straw the same width as the chassis and glue or tape them across the chassis near each end. Trim away the center of the rear piece where it stretches across the notch in the chassis. Make sure the straws are lined up straight, or else the car won't roll straight. (The picture to the right shows how it should look underneath the car.)
      3. Cut the dowel into two pieces, each one inch longer than the width of the chassis. Thread the dowels through the straws to create your axles. Slide a cup hook onto the rear axle so that it fits tightly in the center of the notch in the chassis. The screw will stick up to catch the rubber band. (If you don't have the right-size cup hook, you can make a catch by wrapping an unfolded paperclip around the axle and securing it with hot glue.)
      4. Attach your wheels to the axles. The wheels need to be a tight fit on the axle; if they aren't, you may want to use hot glue to hold them in place.
      5. Screw a small cup hook into the chassis just behind the front axle.
      6. Choose a large rubber band to power the car. Loop one end on the hook at the front of the car, and loop the other end over the catch on the rear axle.
      7. Your car is ready to roll! Turn the rear axle several times to wind the rubber band around it, set the car on a smooth hard surface, and let go! (Note: if your wheels are smooth, you might need more traction for the car to operate properly. Wrap rubber bands or loops cut from a small balloon around the rear wheels to add traction.)

      What Happened:

      The more you twisted the rubber band around the axle, the more potential energy you built up. When you let go, the rubber band snapped back to its original form, spinning the axle in the process. The potential energy in the stretched band was converted into kinetic energy propelling the car forward!

      There are many ways you could change your car design to make it go faster or farther. Experiment with different types of wheels. Will the car go farther if you use bigger wheels, or wheels with more or less friction? What if you use bigger wheels in the back and smaller in the front? Or a 3-wheeled design? Try building a car with CDs for wheels. Does the weight of your car affect how it travels? Try adding a load like coins or washers to the car and see how it changes the distance or speed. What happens if you make your chassis longer? If you give your car a ramp to start on, how much further will it travel?

      Try building two cars with different features and race them against each other!

    « Previous Article: Fireworks Science

    Next Article: Balloon Hovercraft »

    « Previous Article: Learn About Beetles

    Next Article: Backyard Science Worksheet »


    By: matthew walker
    Date: May 24, 2016

    How do I create a rubber band car without loads of materials what is the least amount of materials I can make one in

    By: Eric Matthew Walton
    Date: Apr 18, 2016

    I’m doing a project for a Newton Scooter, is this a good thing to use for it?

    By: Anastasia
    Date: Feb 24, 2016

    What could I do to make the rubber band car roll a further distance by itself?

    By: Brandon
    Date: Nov 18, 2015

    Really works

    By: Karla de la rosa
    Date: Sep 21, 2015

    Creating this car in less than one day with a blue print a table and a commercial. WISH ME GOOD LUCK!!! :) final grade

    By: taylor tullett
    Date: Sep 10, 2015

    iv’e seen a lot of photos about using balloons, will it work ?

    By: Sofia
    Date: Jul 02, 2015

    These cars are quite interesting! How long do they take to travel 20 METERS? Please, answer for stretching and twisting rubber…

    By: Rue
    Date: May 30, 2015

    what if you don’t have a axle and the hot glue?

    By: Mister Love
    Date: May 14, 2015

    My car be doin 40 in 3 secs

    By: stern
    Date: Apr 01, 2015

    you can get better performance w/a twisted rubber band & propeller.
    We get cars doing 20’ in less than 2 seconds, but thats twisting, not stretching.