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Generally metals are ductile.
In materials science, ductility specifically refers to a material's ability to deform under tensile stress. This is often characterized by the material's ability to be stretched into a wire.
A. Both the assertion and reason are correct and reason is the correct explanation for assertion.
B. Both the assertion and reason are correct and reason is not the correct explanation for assertion.
C. Assertion is correct but reason is incorrect.
D. Assertion is incorrect and reason is correct.

Last updated date: 19th Jul 2024
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Hint: The measure of metal's capacity to withhold tensile stress is any power that pulls the two finishes of an item away from each other. The expression "ductile" in a real sense implies that a metal substance is equipped for being extended into a slight wire without getting more fragile or weaker simultaneously.

Complete step by step answer:
The capacity of a material to be plastically deformed without cracking. It is in this way a sign of how 'delicate' or ductile the material is. The ductility of the material sifts relying upon the kinds and levels of alloying components present.
We also remember that metals with high ductile like copper can be brought into long, flimsy wires without breaking. Copper has certainly filled in as a great channel of power, yet it can lead pretty much anything. Metals with low ductility, like bismuth, will burst when they're put under elastic pressure.

Additional Information: The ductile metals can be utilized in something other than conductive wiring. Gold, platinum, and silver regularly are brought into long strands for use in gems, for instance. Gold and platinum are by and large viewed as among the most flexible metals. As per the American Museum of Natural History, gold can be extended to a width of just $5$ microns or five-millionths of a meter thick. One ounce of gold could be attracted to a length of $50$ miles.

Note: Steel links are conceivable due to the malleability of the amalgams being utilized in them. These can be utilized for a wide range of uses; however it is particularly normal in development projects, like scaffolds, and in processing plant settings for things like pulley components.