The force that is applied when you stretch a rubber band between your thumb and forefinger is pushing force. Pulling force is achieved when you stretch the rubber band with one hand by pulling it away from a surface where it is attached.
Rubber bands stretch because of the latex in them and because they are elasticey.
Rubber bands stretch because of the latex in them and because they are elasticey.
yes it does
If the rubber band stretch increases, then the potential energy will increase. Or: If the rubber band stretch decreases, then the potential energy will decrease.
Yes, the thinner the rubber band is the farther it will stretch, but if its too thin then it might just break.
Stretch a rubber band between your fingers.
No. You also need to know the properties of the rubber band - specifically, how much it stretches for every unit of force applied.
Stretch a rubber band between your fingers.
When force is applied to rubber, the elastic tension energy disrupts bonds, and changes the structure, as if heat is applied. Heat is actually absorbed by the rubber, as its elasticity increases, while undergoing the "stretch" deformation. When force is no longer applied, the streched rubber collapses, releasing heat, as the structure reverses form, to its starting molecular conformation.
Rubber bands stretch because of the latex in them and because they are elasticey.
A rubber band will , approximately, stretch an amount "x" in direct proportion to the force "F" applied to it. So you can write this as an equation, F = KX . To find the proportionality constant "K" , hang a known weight "W" from the rubber band and measure the stretch "L". then divide W/L = K . This is called "calibrating" the rubber band.
Rubber bands stretch because of the latex in them and because they are elasticey.
Rubber is a totally different material than glue. Glues are designed to stick things together -rubber is not. Rubber is designed to stretch and still be pliable - glue is not.
yes it does
If the rubber band stretch increases, then the potential energy will increase. Or: If the rubber band stretch decreases, then the potential energy will decrease.
rubber, the rubber helps it stretch but a different type of rubber than tires :)
a rubber band is still rubber because if u stretch it it wont change