Melting point, boiling point, density, malleability, ductility, and luster are several examples of physical properties of copper.
Physical properties of copper wire that are independent of the amount of matter include conductivity, resistivity, melting point, and thermal expansion coefficient. These properties remain constant regardless of the quantity of copper wire present.
Chemical properties involve reacting with another substance. IE: burning of magnesium requires oxygen after which it is no longer magnesium. Physical properties do not. IE: metals are malleable, some very malleable, like copper wire can be bent with your hand. BUT it is still copper wire.
They do not have the same set of physical properties. At the very least they have different melting and boiling points, and different densities, and their colors are not identical.
its a metal, its a solid, its on the periodic table, pennies are made out of the material, they are ductile and can be drawn into a wire.
Copper Sulfide is a wholly different chemical from copper and sulfur, and thus shows different characteristics and is not dividable by physical means, while a mixture of copper and sulfur powder is just a physical mix.
Copper has both chemical and physical properties. Chemical properties refer to how copper reacts with other substances, while physical properties refer to characteristics like its color, density, and conductivity.
The physical properties of copper in cell phones include conduction. It is very malleable and can be molded to whatever shape is needed.
Physical properties of copper wire that are independent of the amount of matter include conductivity, resistivity, melting point, and thermal expansion coefficient. These properties remain constant regardless of the quantity of copper wire present.
Copper is a chemical element, so it is considered a substance with distinct chemical properties, not a physical property. Its physical properties include being a solid at room temperature, having a distinct color and density, while its chemical properties include its ability to react with other substances and form different compounds.
No, copper wire is a physical property of copper. Chemical properties describe how a substance interacts with other substances to form new substances, while physical properties describe the characteristics of a substance without changing its chemical composition.
Chemical properties involve reacting with another substance. IE: burning of magnesium requires oxygen after which it is no longer magnesium. Physical properties do not. IE: metals are malleable, some very malleable, like copper wire can be bent with your hand. BUT it is still copper wire.
The physical properties of copper wire that are independent of the amount of matter include shape, conductivity, density, and melting point. Shape refers to the physical form of the wire, which remains constant regardless of its mass or volume.
The property of copper being a good conductor of electricity is a physical property because it can be observed without changing the chemical composition of copper. It is a characteristic based on the arrangement of electrons in the copper atoms.
what is the answer
Bending a copper wire is a physical change because the copper itself does not undergo a chemical reaction. The arrangement of copper atoms simply changes temporarily when the wire is bent, but the properties of copper remain the same.
They do not have the same set of physical properties. At the very least they have different melting and boiling points, and different densities, and their colors are not identical.
If you meant to ask, "Is stretching copper into wire a physical or chemical change", it's a physical change.