Tension
Tension. The force itself is not elastic, but the material being pulled may be.
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.
1. Applied Force2. Gravity Force
An example of elastic force of tension is a rubber band being stretched. As the rubber band stretches, it exerts a tension force in the opposite direction to try and return to its original shape and length.
The elastic force you are referring to is compression. Compression occurs when external forces push or squeeze matter together, causing the molecules to move closer to each other and creating pressure within the material. This force is often applied in situations like compressing springs or squishing a soft material.
Tension. The force itself is not elastic, but the material being pulled may be.
The elastic spring stretches more when subjected to the same force.
Elasticity is a type of strain that is recoverable, it is not a force. However it is caused by an imposed force which generates a stress below the yield strength of a material. If the force is pulling or stretching a material it is known as a tensile force or stress.
Elasticity is a type of strain that is recoverable, it is not a force. However it is caused by an imposed force which generates a stress below the yield strength of a material. If the force is pulling or stretching a material it is known as a tensile force or stress.
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.
1. Applied Force2. Gravity Force
An example of elastic force of tension is a rubber band being stretched. As the rubber band stretches, it exerts a tension force in the opposite direction to try and return to its original shape and length.
The elastic force you are referring to is compression. Compression occurs when external forces push or squeeze matter together, causing the molecules to move closer to each other and creating pressure within the material. This force is often applied in situations like compressing springs or squishing a soft material.
The force that makes an elastic band stretch is called tension. When a force is applied to pull the ends of the elastic band apart, the band stretches due to the tension force acting within the material. This force is caused by the intermolecular bonds within the elastic material being stretched and is what allows the band to return to its original shape once the force is released.
When the force applied to an elastic band is increased, the band stretches further and its length increases. This is due to the elastic properties of the band, which allow it to deform under applied load. If the force is too great, the band may reach its elastic limit and permanently deform or break.
Two types of elastic forces are tension and compression. Tension is a force that stretches or elongates an object, while compression is a force that squeezes or shortens an object. Both forces are examples of elastic deformation, where the object returns to its original shape once the force is removed.
When elastic is pulled, it stretches due to the rearrangement of its long polymer chains. This stretching allows the material to store potential energy, which it releases when the pulling force is removed, causing the elastic to return to its original shape.