Rubber.
No, rubber is more elastic than steel. Rubber has a high elasticity and is able to return to its original shape after being stretched or compressed, while steel has a lower elasticity and is more likely to deform permanently when stretched.
Rubber generally has more elasticity than steel. This is because rubber is a type of elastomer that can deform under stress and return to its original shape once that stress is removed. On the other hand, steel is a rigid material with less elasticity, meaning it is less able to deform and return to its original shape when subjected to stress.
In science, elasticity is the tendency of a material to return to its original size and shape when it is released from being stretched or compressed. By this definition steel is more elastic than rubber.
steel cables, rubber bands, springs and lycra clothes
Contrary to popular expectation, rubber is not really elastic, atleast not the way scientists define elasticity. Rubber is actually much less elastic than steel. Thus for best results we use steel or similar materials, say brass, in this experiment.
N0. The common belief is that if an object elongates easily the object is more elastic . But in Physics the object which gives more resistance to elongate is said to be more elastic . Such objects will have high Young's modulus . Steel is more elastic than copper . The Young's modulus for steel is 210 G Pa For copper it is 117 G Pa Elongation for steel is 35% and for copper it is 45% For rubber Young's modulus is 0.02 G Pa and elongation is 500 % During collision two clay balls will stick together. We call it inelastic collision . Two steel balls will rebound easily and the collision is elastic collision.
In general, thicker rubber bands have more elasticity compared to thinner rubber bands. This is because thicker rubber bands contain more material that is able to stretch and return to its original shape. Thinner rubber bands may have less material to stretch, resulting in lower elasticity.
Temperture changes will affect the elasticity of rubber.
Heating a rubber band causes the polymer chains to move more freely, reducing the elastic properties of the rubber band. This leads to a decrease in its elasticity, making it stretch more easily.
Heat can cause a rubber band to lose its elasticity by breaking down the molecular structure of the rubber, making it less flexible and more prone to stretching or breaking.
a rubber band has the same elasticity as any other, however in order to sustaine more elasticity, the best thing to do is put an elastic band in a fridge and leave it for the night. When you take the elastic band out, it will last for longer. Thus is scientifically proven
The elongation is more in rubber than glass for same deforming force applied on them. whose elongation is more its elasticity is less. Because less elongation will have more elasticity and vice verse.The answer is "glass"