You must hang weights from a rubberband until it snaps;then divide the total weight by twice the cross-sectional area of the rubber band. ThisÊwill be the Êtensile load of the rubber band.
Yes, rubber bands are made out of rubber.(:
list of items made of rubber
They are made out of silicone rubber
Rubber, with steel belts, and plies made of a combination of rubber and or polyester, or nylon.
"Rubber band" is typically considered a compound noun, which means it is made up of two separate words that come together to form a single concept. In this case, "rubber" and "band" combine to refer to a stretchable loop made of rubber material. So, technically speaking, "rubber band" is considered as two separate words functioning as a single unit.
The Rubberband Man was created by a humbled rubber band collector named Samuel Oak in 1912. He created many figures and sculptures using rubber bands, but the Rubberband man is his most famous work.
make a foil ball and put rubber bands around it
I believe the number is in the 700,000's, if not more.
Okay i think they made the silly bands with different kinds of colorfull rubberband's and other types of rubber things that compares to silly bands
when you collect all the rubberbands in bully i get the famous RUBBERBAND BALL
some really complete dude called William H Spencer, rubber bands rock but no1s gonna read this :( lol I read it =D ^.^
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.
The largest rubber band ball ever created weighed 9,032 pounds and was made by Joel Waul in Florida, USA. He started by wrapping rubber bands around a small rubber ball and continued adding more bands over several years until it reached its massive size.
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!
In 1845 by William H Spencer
To build a rubber band propelled car, you will need a chassis (can be made of wood or lightweight plastic), wheels, rubber bands, a propeller (can be made of a straw or a wooden dowel), and something to wind up the rubber band like an axle. Attach the wheels to the chassis, wind up the rubber band around the axle, and attach the propeller. When you release the rubber band, it will unwind and propel the car forward.