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Elastomers are materials
  • a)
    which can be stretched without corresponding stress
  • b)
    which cannot be stretched to cause large strains
  • c)
    which cannot be stretched to beyond elastic limit
  • d)
    which can be stretched to cause large strains
Correct answer is option 'D'. Can you explain this answer?
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Elastomers are materialsa)which can be stretched without corresponding...
An elastomer is a polymer with viscoelasticity (i. e., both viscosity and elasticity) and very weak intermolecular forces, and generally low Young's modulus and high failure strain compared with other materials. Elastomer rubber compounds are made from five to ten ingredients, each ingredient playing a specific role. Polymer is the main component, and determines heat and chemical resistance, as well as low- temperature performance. Reinforcing filler is used, typically carbon black, for strength properties.
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Elastomers are materialsa)which can be stretched without corresponding...
Elastomers are materials that can be stretched to cause large strains. Let's break down the given options to understand why option D is the correct answer.

a) Elastomers can be stretched without corresponding stress: This statement is incorrect. Elastomers can be stretched, but there is always some stress involved when stretching them. When an elastomer is stretched, it experiences a force that opposes the stretching, known as stress.

b) Elastomers cannot be stretched to cause large strains: This statement is incorrect. Elastomers are known for their ability to undergo large strains when stretched. Unlike other materials like metals or ceramics, elastomers can stretch significantly without breaking or undergoing permanent deformation.

c) Elastomers cannot be stretched beyond the elastic limit: This statement is incorrect. Elastomers can indeed be stretched beyond their elastic limit. The elastic limit is the maximum stress a material can withstand without undergoing permanent deformation. Elastomers, however, can be stretched beyond this limit and still return to their original shape when the stress is removed.

d) Elastomers can be stretched to cause large strains: This statement is correct. Elastomers are highly elastic materials that can be stretched to cause large strains. This property is due to their unique molecular structure, which allows them to undergo significant deformation and then return to their original shape when the stretching force is released.

Elastomers are widely used in various applications, including rubber bands, tires, gaskets, seals, and many more. Their ability to stretch and recover their original shape makes them ideal for such applications where flexibility and resilience are required.

In conclusion, option D is the correct answer because elastomers can indeed be stretched to cause large strains, distinguishing them from other materials.
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Attempt All Questions sub parts from each question.Elasticity vs. plasticity: Objects get deformed when pushed, pulled, and twisted. Elasticity is the measure of the amount that the object can return to its original shape after these external forces and pressure are removed. The opposite of elasticity is plasticity. When something is stretched, and it stays stretched, the material is said to be plastic. Such deformation is said to be plastic deformation. In elastic deformation, atoms of the material are displaced temporarily from their original lattice site. They return back to their original position after the removal of external force. In plastic deformation, atoms of the solid are displaced permanently from their original lattice site. They don’t return back to the original position even after the removal of external load. So, elastic deformation is temporary, whereas plastic deformation is permanent. Amount of elastic deformation is very small. But the amount of plastic deformation is quite large. External force required for elastic deformation of solid is quite small. Force required for plastic deformation is much higher. Total energy absorbed by the material during elastic and plastic deformation region is called modulus of toughness. Energy absorbed by the material during elastic deformation is called module of resilience. Most materials have an amount of force or pressure for which they deform elastically. If more force or pressure is applied, then they undergo plastic deformation. Materials those have a fair amount of plastic deformation before breaking are said to be ductile. Materials those can't stretch or bend much without breaking are said to be brittle. Copper, aluminium etc. are ductile materials. For this reason those are used for making wires. Glass and ceramics are often brittle; they will not bend; they will break.Q. Which of the following statement is false?

Attempt All Questions sub parts from each question.Elasticity vs. plasticity: Objects get deformed when pushed, pulled, and twisted. Elasticity is the measure of the amount that the object can return to its original shape after these external forces and pressure are removed. The opposite of elasticity is plasticity. When something is stretched, and it stays stretched, the material is said to be plastic. Such deformation is said to be plastic deformation. In elastic deformation, atoms of the material are displaced temporarily from their original lattice site. They return back to their original position after the removal of external force. In plastic deformation, atoms of the solid are displaced permanently from their original lattice site. They don’t return back to the original position even after the removal of external load. So, elastic deformation is temporary, whereas plastic deformation is permanent. Amount of elastic deformation is very small. But the amount of plastic deformation is quite large. External force required for elastic deformation of solid is quite small. Force required for plastic deformation is much higher. Total energy absorbed by the material during elastic and plastic deformation region is called modulus of toughness. Energy absorbed by the material during elastic deformation is called module of resilience. Most materials have an amount of force or pressure for which they deform elastically. If more force or pressure is applied, then they undergo plastic deformation. Materials those have a fair amount of plastic deformation before breaking are said to be ductile. Materials those cant stretch or bend much without breaking are said to be brittle. Copper, aluminium etc. are ductile materials. For this reason those are used for making wires. Glass and ceramics are often brittle; they will not bend; they will break.Q. Which of the following 4 stress-strain graphs represent a ductile material and a brittle material?

Attempt All Questions sub parts from each question.Elasticity vs. plasticity: Objects get deformed when pushed, pulled, and twisted. Elasticity is the measure of the amount that the object can return to its original shape after these external forces and pressure are removed. The opposite of elasticity is plasticity. When something is stretched, and it stays stretched, the material is said to be plastic. Such deformation is said to be plastic deformation. In elastic deformation, atoms of the material are displaced temporarily from their original lattice site. They return back to their original position after the removal of external force. In plastic deformation, atoms of the solid are displaced permanently from their original lattice site. They don’t return back to the original position even after the removal of external load. So, elastic deformation is temporary, whereas plastic deformation is permanent. Amount of elastic deformation is very small. But the amount of plastic deformation is quite large. External force required for elastic deformation of solid is quite small. Force required for plastic deformation is much higher. Total energy absorbed by the material during elastic and plastic deformation region is called modulus of toughness. Energy absorbed by the material during elastic deformation is called module of resilience. Most materials have an amount of force or pressure for which they deform elastically. If more force or pressure is applied, then they undergo plastic deformation. Materials those have a fair amount of plastic deformation before breaking are said to be ductile. Materials those can't stretch or bend much without breaking are said to be brittle. Copper, aluminium etc. are ductile materials. For this reason those are used for making wires. Glass and ceramics are often brittle; they will not bend; they will break.Q. Aluminium is a ............... materials.

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Elastomers are materialsa)which can be stretched without corresponding stressb)which cannot be stretched to cause large strainsc)which cannot be stretched to beyond elastic limitd)which can be stretched to cause large strainsCorrect answer is option 'D'. Can you explain this answer?
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