No, elasticity is the ability of a material to return to its original shape after being stretched or deformed. If a substance is unable to stretch, it would lack elasticity.
Elasticity in materials is determined by their ability to return to their original shape after being stretched or deformed. Materials with a high elasticity have strong molecular structures that allow them to withstand deformation and then spring back to their original shape when the force is removed. Factors such as the type of bonds between molecules and the arrangement of atoms within the material contribute to its elasticity.
Different objects have different elasticities. Elasticity is a property that describes how a material responds to stress, with some materials being more elastic than others. It depends on the molecular structure and composition of the material.
No, elastic does not shrink. It is designed to stretch and contract back to its original form. If exposed to extreme heat or chemicals, the elastic may degrade or lose its elasticity over time.
The ability of a material to bounce back after being disturbed is called resilience.
When the artery walls lose their elasticity, this is called arteriosclerosis. When this happens, the body has a tougher time circulating blood.
If it jiggles, it is losing elasticity. We all will go through that.
Emphysema.
Inelastic things can not be stretched or do not rebound while elastic things will stretch, bounce, rebound, etc..
Elasticity is about things that stretch and snap back, like rubber bands.
The lungs lose elasticity so they expand less.
There could be many things said about elasticity of demand that are false, but there would be no point in making things up that are not true. This appears to have been taken from a multiple choice exam.
Aging tissues lose elasticity due to a decrease in production of collagen and elastin, which are proteins responsible for maintaining tissue structure and flexibility. Additionally, cumulative damage from factors like sun exposure, pollution, and lifestyle choices can contribute to the breakdown of these proteins over time. As a result, tissues become less firm and resilient, leading to a loss of elasticity.
Over the course of time, the arterial walls are apt to lose elasticity, which limits the amount of blood that can surge through them and hence limits the supply of oxygen to the heart. This condition is known as arteriosclerosis.
The Alveoli itself can not be 'lost', but it is possible to lose their function. Alveoli can lose their ability to exchange Oxygen and Carbon Dioxide with Blood. They can lose their elasticity and eventually rupture. Once they have ruptured it is impossible to reverse, and the damage is permanent.
this could be cause by a condition called fibrosis where the alveoli walls scar and thicken making a larger diffusion distance. also causing the walls to lose elasticity. this could be cause by a condition called fibrosis where the alveoli walls scar and thicken making a larger diffusion distance. also causing the walls to lose elasticity. this could be cause by a condition called fibrosis where the alveoli walls scar and thicken making a larger diffusion distance. also causing the walls to lose elasticity.
The loss of elasticity of the alveoli is caused by high pressure in the bladder causing an unsafe drop in blood pressure which will cause alveoli to lose their elasticity. It can also be caused by being overweight, underweight, or eating feces.