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because they are maleable and change shape without breaking due to yield point where material becomes plastic. The metal is strain hardened and becomes stronger
What else can I help you with?
Why don't metals break when pounded into sheets or drawn into wires?
because they are maleable and change shape without breaking due to yield point where material becomes plastic. The metal is strain hardened and becomes stronger
Which is NOT a property of metal?
Non-metals are very brittle, and cannot be rolled into wires or pounded into sheets. Conduction: They are poor conductors of heat and electricity. Luster: These have no metallic luster and do not reflect light
Is platinum harder than titanium?
Platinum is harder. Gold is a very soft and malleable metal and can be pounded into thin sheets quite easily.
What is the characteristics of metal makes it an appropriate roofing material it is shiny it has high density it can be hammered into sheets or it can be drawn into fine wire?
The fact that it can be hammered into sheets would seem to be the most relevant characteristic in this case.
Malleability is an example of whatphysical propertyphysical change chemical property or chemical change?
It is a measure of a metal's ability to be reformed by hammering without cracking. Gold is very malleable and can be pounded into thin sheets.
Does describing a metal as luster means it can be pounded into a new shape?
Luster has to do with appearance; the word that means 'can be pounded into a new shape' is malleable.
How can ductility of a metal be useful?
A metal with good ductility can easily be drawn into wire or rolled into thin sheets. The more ductile a metal is, the finer the wire and thinner the sheets can be. Gold is the most ductile metal; it can be drawn into a sheet one atom thick. (This would allow you to gold-plate something that's nonconductive; rather than trying to coat the metal with a conductive substance, you could coat it with adhesive, lay a sheet of gold foil on it, and put it in a vacuum-bagging system where the gold would be sucked down around the object.)
How can a ductility metal be useful?
A metal with good ductility can easily be drawn into wire or rolled into thin sheets. The more ductile a metal is, the finer the wire and thinner the sheets can be. Gold is the most ductile metal; it can be drawn into a sheet one atom thick. (This would allow you to gold-plate something that's nonconductive; rather than trying to coat the metal with a conductive substance, you could coat it with adhesive, lay a sheet of gold foil on it, and put it in a vacuum-bagging system where the gold would be sucked down around the object.)
How can ductility metal can be useful?
A metal with good ductility can easily be drawn into wire or rolled into thin sheets. The more ductile a metal is, the finer the wire and thinner the sheets can be. Gold is the most ductile metal; it can be drawn into a sheet one atom thick. (This would allow you to gold-plate something that's nonconductive; rather than trying to coat the metal with a conductive substance, you could coat it with adhesive, lay a sheet of gold foil on it, and put it in a vacuum-bagging system where the gold would be sucked down around the object.)
Describing a metal as malleable means that it can be pounded into a new shape.?
the answer is true
What is the job of the Sheet Metal Break?
A sheet metal break is a piece of machinery it allows bending of sheet metal. There are two types of break, a cornice break and a box and pan break. A cornice break only allows for simple bends where a a box and pan break allows for sheet metal to be made in to box and pan shapes. It can also be referred to as a bending machine or bending break.
Is pounded metal a physical or chemical change?
Physical change
