Rubber Band Car Designs For Distance

Basically it s a project to build a rubber band car of any size and not use any materials designed or it s intentional use is for a car.

Rubber band car designs for distance.

A stretchy science activity from science buddies. The focus of this lesson is on rubber band powered car design. Distance is based on displacement. Feb 1 2017 explore stephen hick s board rubber band powered cars followed by 175 people on pinterest.

Skip to primary navigation. Must carry a ping pong ball and distance will be judged based uponhow far it goes. 6 rubber band car designs use a body axle and wheels to teach potential and kinetic energy. 12 x4 styrofoam board 2 drinking straws 2 kabob skewers 1ft of rubber motorstock 1 pingpong ball general shop supplies.

It s fun and easy to build a rubber band car. One of the keys to a successful rubber band car are large wheels with rubbery grip that don t slip on the axel. Build a rubber band powered car. It is a competition whoevers goes farther wins.

Making a rubber band car is fun for experiments and learning about potential and kinetic energy. By science buddies ben finio on january 11 2018. This is an engineering design project. Anything below 20 meters is a failing grade.

When you turn the axle on the car you are giving the rubber band potential energy which is stored energy. For a fast car that goes a long distance rotate the axle a few times to increase the winds of the rubber band rubber band car picture 6 hold the axle so that the rubber band doesn t slip and place the car on the floor. See more ideas about rubber band car power cars rubber bands. Legos cardboard and other household items are used.

It must travel at least 20 meters and best of all is above. Powered in sime way by a 1ft section of 3 32 motor stock. The aim of this project is distance. With this you can design the car to speedily sprint a short distance or travel a long distance.

Students must design their cars to travel in a straight line for a distance of at least 3 meters within a 1 meter wide track. Teams of students construct rubber band powered cars from everyday materials. When the rubber band unwinds and the axle spins it transforms the potential stored energy into kinetic energy or motion.