Ductile.
The property of being able to be drawn into a wire is referred to as ductility. Materials that exhibit ductility can be stretched into a wire without breaking. Ductility is a key characteristic of metals like copper and gold.
Energy is stored in a stretched wire because work is done to stretch the wire, which results in potential energy being stored in the form of elastic energy. When the wire is allowed to return to its original length, this stored energy is released as the wire contracts back to its original position.
Approximately 2 kilometers of wire can be drawn from 1 gram of gold due to its malleability and ductility properties. Gold is known for being able to be stretched into long, thin wires without breaking.
Ductility is the property that allows a material to be drawn, pulled, or extruded through a small opening to produce a wire. Materials with high ductility can be easily stretched into thin wires without breaking.
Ductile.
a material that can be stretched into a wire
The property of being able to be drawn into a wire is referred to as ductility. Materials that exhibit ductility can be stretched into a wire without breaking. Ductility is a key characteristic of metals like copper and gold.
yes
Young's modulus
Ductility refers to the ability of a metal to be drawn into a wire.
Energy is stored in a stretched wire because work is done to stretch the wire, which results in potential energy being stored in the form of elastic energy. When the wire is allowed to return to its original length, this stored energy is released as the wire contracts back to its original position.
Yes, most metals can be stretched into wires through a process called drawing. This involves pulling the metal through a series of decreasingly smaller dies to reduce its diameter while increasing its length. The resulting wire retains the properties of the original metal.
A piece of wire stretched such that its length increases and its radius decreases will tend to have its resistance increase. The formula for this is: R = ρL/A where ρ = resistivity of the material composing the wire, L = length of the wire, and A = area of the conducting cross section of the wire. It can easily be seen that as area decreases resistance gets higher. In the case proposed the wire length is not reduced as it is stretched to reduce the area, this increases the resistivity as well.
Approximately 2 kilometers of wire can be drawn from 1 gram of gold due to its malleability and ductility properties. Gold is known for being able to be stretched into long, thin wires without breaking.
One that is able to be stretched
A material that is able to be drawn into wire is called ductile. Ductility is the ability of a material to undergo deformation without breaking and can be drawn or stretched into a thin wire. Metals like copper, gold, and silver are examples of ductile materials commonly used for wire production.