snappy answers
A limitless thinker with flexible solutions.
snappy answers
It depends on the rubber band if is a small rubber band then it will go about 20'and if it is an bigger rubber band then it will go about 35' but it depends on the rubber band and the way you shoot the rubber band
When a rubber band is released, the potential energy stored in the stretched rubber band is converted into kinetic energy as the rubber band accelerates back to its original shape. This kinetic energy is then used to propel any object attached to the rubber band.
You can give a rubber band potential energy by stretching it. When you stretch a rubber band, you are doing work on it, which causes the rubber band to store potential energy in the form of strain energy. This potential energy is released when the rubber band is allowed to return to its original shape.
snappy answers
A limitless thinker with flexible solutions.
snappy answers
Possibly a weapon of math disruption. Another possibility is that you get expelled, if not suspended.
Oh, dude, when you cross a mathematician with a rubber band, you get a "stretchy" equation! Like, they'll be all like, "Let's solve for 'x' while we stretch this thing to its limits." It's like math meets flexibility training.
an equation
Unfortunately
Unfortunately
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.
It depends on the rubber band if is a small rubber band then it will go about 20'and if it is an bigger rubber band then it will go about 35' but it depends on the rubber band and the way you shoot the rubber band
A rubber band is an insulator as it does not allow electrons to pss through it
a rubber band is still rubber because if u stretch it it wont change