you attach a rubber band propeller to a mini chassi.
The color of the rubberband does not affect its strength. The weight each rubberband can hold depends on its material and thickness. Typically, a thicker rubberband will be able to hold more weight than a thinner one.
To build a rubber band car that travels the farthest distance, you can focus on making it lightweight, using smooth wheels, and winding the rubber band tightly for maximum energy transfer. Additionally, consider the design of the car for aerodynamics and ensure the wheels are aligned properly for straight movement. Experiment with different materials and designs to optimize performance.
The unbelted crash victim was propelled right through the windshield of his car.
Any body like a rubberband likes to stay in its state of equilibrium (a state of nirvana if you will). A rubberband car has a rubberband which when wound stores potential energy because it is now put in a state that is not its natural state of equilibrium. When you wind the rubberband the torque you supply from your hands stores potential energy in it. The moment this woundup rubberband is released, it craves to get to its state of equilibrium and in doing so expends its potential energy. If there are proper linkages to the wheels of a toy car, then this potential energy can be directed to the wheels. The potential energy gets converted into kinetic energy and the wheels rotate. Recognize that all of the potental energy is not converted into kinetic energy that is wholly used the motion of the toy. There are heat losses, friction losses in the linkages etc. These are small in comparison to the friction of the surface on which the toy runs. This leads the kinetic energy to be slowly used in overcoming the frictional forces of the surface and the kinetic energy finally depletes to zero when the toy stops.
The sailboat is propelled by the wind. A sudden burst of energy propelled him into first place.
Use a wound up rubberband as propulsion. I'll leave the design to your imagination.
Assuming you mean a toy car, build a "mouse trap" car and use your imagination.
soda balls sweat an stripers
For a self propelled car a light wood is better. For a gravity propelled car a heavy wood is better.
i did
A plane
The color of the rubberband does not affect its strength. The weight each rubberband can hold depends on its material and thickness. Typically, a thicker rubberband will be able to hold more weight than a thinner one.
To build a rubber band car that travels the farthest distance, you can focus on making it lightweight, using smooth wheels, and winding the rubber band tightly for maximum energy transfer. Additionally, consider the design of the car for aerodynamics and ensure the wheels are aligned properly for straight movement. Experiment with different materials and designs to optimize performance.
yes it's a car
doodlebug
Rubberband Banks was created in 2006.
I think it's 763mph.