If a pulling force is exerted on an elastic band, then the elastic band will stretch. The more force that is exerted, the more the band will stretch.
The force exerted by the weight exceeds the force of the elasticity that normally keeps the elastic band in a contracted state. As the band stretches, the resistance increases to the point where it is equal to the force exerted by the weight.
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.
when we stretch rubber band we apply a force on it and this force is stored in the band in form of potential energy and when we release our hand potential energy converts into kinetic energy an thus hits our hand with greater force.
moving force
If a pulling force is exerted on an elastic band, then the elastic band will stretch. The more force that is exerted, the more the band will stretch.
The force exerted by the weight exceeds the force of the elasticity that normally keeps the elastic band in a contracted state. As the band stretches, the resistance increases to the point where it is equal to the force exerted by the weight.
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.
This is hard to measure because you need to know the rebound of the rubber band and the force pushing against it, e.g. if you were under water the force will be different.
No. You also need to know the properties of the rubber band - specifically, how much it stretches for every unit of force applied.
when we stretch rubber band we apply a force on it and this force is stored in the band in form of potential energy and when we release our hand potential energy converts into kinetic energy an thus hits our hand with greater force.
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.
Elastic potential energy.
moving force
a rubber band changes shape under force and regains the same shape when the force is removed.if excessive force is applied it breaks therefore yes
F=-kx where F is the restoring force exerted by the spring on that end -k is the rate or spring constant x is the displacement of the spring's end from its equilibrium position
right