Elastic materials bend more easily than they break due to their ability to deform and return to their original shape. This property is known as elasticity, which allows materials like rubber bands to stretch and flex without permanently deforming or snapping.
Elastic modulus affects the speed of sound propagation in a material. Materials with higher elastic modulus values transmit sound waves faster than those with lower elastic modulus values. Essentially, the higher the elastic modulus, the faster sound travels through the material.
A super-elastic collision occurs when the kinetic energy after the collision is greater than the kinetic energy before the collision. An example is two perfectly elastic balls colliding in space with no external forces acting on them.
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.
Pans bend in the oven due to the uneven distribution of heat. When one part of the pan gets hotter than the other, it expands more, causing the pan to bend.
The stretchiness of elastic bands depends on the material they are made of. Different materials have varying elasticity properties based on their composition and structure. Factors such as the type of polymer used, the manufacturing process, and any additives or coatings can all affect the stretchiness of an elastic band.
You use wheels to move things around easilier than to just walk.
When rocks bend instead of breaking, it is called ductile deformation. This typically occurs under high pressure and temperature conditions deep within the Earth's crust where rocks are able to deform and flow rather than fracture.
true
what animals have elastic jaw
Ice will break rather then bend
A: GOLD in a vacuum can be spread to a film steel does not have this property
No. It's more elastic in the long run than the short run.
Elastic cartilage has a dense network of elastic fibers that provide greater flexibility compared to other types of cartilage, such as hyaline or fibrocartilage. This unique composition allows elastic cartilage to maintain its shape while being able to bend and return to its original form, making it ideal for structures like the ear and epiglottis. The combination of strength and elasticity distinguishes it from the more rigid hyaline cartilage.
no
Elastic modulus affects the speed of sound propagation in a material. Materials with higher elastic modulus values transmit sound waves faster than those with lower elastic modulus values. Essentially, the higher the elastic modulus, the faster sound travels through the material.
To weaken elastic so it is not so tight is by heating it with an iron. Stretch the elastic as you apply heat and leave it stretched until it cools. You may have to apply heat more than once.
Yes