A rubber band is a single molecule as is a latex glove.
Force constant of rubber band.
The greater the weight the.
H e pv fd รจ q w pv fd if we heat the rubber band with a weight attached the force f is constant but the band contracts.
The rotational spring constant for this thicker band is not surprisingly higher than the normal sized rubber band with a value of 4 92 x 10 4 n m.
The minus sign shows that this force is in the opposite direction of the force that s stretching or compressing the spring.
Since we heated the band up h q 0.
F which represents force k which is called the spring constant and measures how stiff and strong the spring is and x is the distance the spring is stretched or compressed away from its equilibrium or rest position.
This can be done reversibly so that.
A rubber band has a spring constant of 45 n m.
If you had rubber bands of the same cross sectional area then the one that stretches the least also has the greatest elastic modulus.
The variables of the equation are.
The work w is f d p v the p v term is very small and h q f d p v f d p v q.
For example if the pegs are placed such that the band is stretched to 52 inches the force the bands apply to the pegs are 57 6 lbs per inch.
If i assume that i could also rotate this one.
When the rubber band is pulled by a force of 9 8 n how far will it stretch and what is its potential energy.
The elongation of the rubber band is the product of these two forces this you measure with a ruler.
In this case the linear function fitting the straight part of the data gives a spring constant of 17 38 n m.
Hooke s law and elastic potential.
Say i have a rubber band wrapped around 2 pegs at a certain distance and at that distance i know the pounds of force per inch it is pulling at.
Individual 4 carbon backbone units are forced into rotational conformations that have longer end to end distances and this restricts the number of conformations states that are thermally accessible.
After you get the rubber band stretched just a little bit it is very spring like.
The ultimate strength is measured by breaking the material.