Magnitize it
Yes, molten copper can conduct electricity because the free-moving electrons in the molten state allow for the flow of electric current. When copper is molten, the atomic structure is disrupted, allowing for the easy movement of charged particles and thus conductivity.
Molten copper is copper in liquid form, obtained by heating solid copper to its melting point of 1,984°F (1,085°C). It is a bright orange-red color and is commonly used in industries such as electronics, construction, and metalworking due to its excellent conductivity and malleability.
HDHC copper is a high-conductivity copper alloy that stands for High Ductility High Conductivity copper. It is known for its excellent electrical conductivity, thermal conductivity, and mechanical properties, making it a popular choice for applications requiring high-performance copper materials.
Factors affecting the conductivity of copper include temperature (higher temperatures decrease conductivity), impurities in the copper (impurities reduce conductivity), and the crystalline structure of the copper (grain boundaries can impede electron movement). Additionally, the length and cross-sectional area of the copper wire can also affect its conductivity.
Copper has the highest conductivity
Steel has lower conductivity compared to copper. Copper is a better conductor of electricity than steel due to its higher conductivity properties.
Copper and molten sodium chloride are electrical conductors.
Out of copper, silver, and gold, silver has the highest conductivity.
Copper (II) sulfate is a poor conductor of electricity in solid state. When dissolved in water, it, like most salts, becomes conductive. One would expect that molten CuSO4 would also conduct electricity.
Copper has a high thermal conductivity, not low. This is a good generalization of any metal, although they vary in conductivity.
Copper is an element.
Adding more copper to a copper block will increase its mass and volume, causing a change in its overall size and weight. It can also increase the thermal and electrical conductivity properties of the block. However, its physical appearance and chemical properties will remain the same.