It is an example of motion
A Rubberband is a good example. It stores energy until it is released.
This is a conversion of Potential energy to Kinetic energy. When you stretch the rubberband, you exert energy to do so. That energy is stored in the rubberband.(Notice it will resitst your stretching of it). When you release the rubberband, all of the energy stored within it will be converted to kinetic energy, meaning the energy of motion. This will launch the rubberband forward. Hope this helps!
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.
Rubberband Banks was created in 2006.
Rubberband Girl was created on 1993-09-06.
Rubberband Man was created on 2003-12-30.
you get a foot of string and a rubberband. you tie a knot on the rubberband. get a plastic spoon. you stretch the rubberband to the rop to the end. you spin it to make sound.
I don'tknow if this is a joke or not, but I'll answer it anyway. Rubberband.
As you stretch a rubber band, its temperature increases due to the internal friction within the material caused by the stretching. This increase in temperature is a result of the conversion of mechanical energy (from stretching) into thermal energy. After ten minutes of continuous stretching, the rubber band will likely reach a higher temperature than its initial state.
Yes, the amount of stretch of a rubber band can affect the distance it will travel. Greater stretch can provide more potential energy to propel the rubber band, resulting in a longer distance traveled. However, overly stretching the rubber band beyond its limit can cause it to snap prematurely.
warm up....:)
One example of stretching a rubber band is pulling it from both ends to increase its length and storing potential energy in the process.