Copper is better conductor than iron because copper has higher electron affinity of 1.22948 eV than iron which is 0.16299 eV.
Between iron, copper, and aluminum, copper is the best, followed by aluminum, and last by iron. Gold is often plated over other metals because it is even better and resists corrosion.
Iron is a better conductor of heat compared to copper. This is because iron has a higher thermal conductivity, meaning it can transfer heat more efficiently. This property makes iron a preferred choice for applications where heat conduction is crucial.
Copper is a better conductor of heat than iron because it has a higher thermal conductivity. This is because copper's atomic structure allows heat to transfer more efficiently through its lattice. In contrast, iron has a lower thermal conductivity due to its crystal structure which hinders the flow of heat.
Iron is a harder and more brittle metal than copper. Copper is a better conductor of electricity and heat compared to iron. Additionally, copper has a reddish-orange color while iron is a silver-gray color.
Aluminum have better thermal conductivity than ironAluminum: 205W/(m K)Iron: 80 W/(m K)
Copper is a much better electrical conductor than iron.
Between iron, copper, and aluminum, copper is the best, followed by aluminum, and last by iron. Gold is often plated over other metals because it is even better and resists corrosion.
Given the context of your question i can only assume you are referring to the CORE of an electromagnet. In that case, the more dense the magnetic material you are using the better. In the case of Copper,while dense, it's very weakly magnetic and does not make an effective core. Steel is an alloy and while harder than Iron, is not as dense. Iron, being a denser magnetic material, makes a very effective core for an electromagnet to wrap your insulated copper wires around. I would suggest using Iron; however steel should also work for the purposes of demonstrating the concept of an electromagnet.
Copper has relatively easily available electron as compare to the iron because copper has bigger atomic size than iron which means the shielding effect in copper is more than iron so the electron of copper can conduct heat more easily and efficiently as compare to the electron of the iron which make iron not a good conductor of heat if it is compair to copper.
.Something that carries something better than average. For example, copper is a good conductor of electricity. Iron is a good conductor of heat.
Iron is a better conductor of heat compared to copper. This is because iron has a higher thermal conductivity, meaning it can transfer heat more efficiently. This property makes iron a preferred choice for applications where heat conduction is crucial.
Copper is a better conductor of heat than iron because it has a higher thermal conductivity. This is because copper's atomic structure allows heat to transfer more efficiently through its lattice. In contrast, iron has a lower thermal conductivity due to its crystal structure which hinders the flow of heat.
Iron is a harder and more brittle metal than copper. Copper is a better conductor of electricity and heat compared to iron. Additionally, copper has a reddish-orange color while iron is a silver-gray color.
iron, copper, silver
Copper wire. .wikipedia.org/wiki/Electrical_resistivity_and_conductivity
Aluminum have better thermal conductivity than ironAluminum: 205W/(m K)Iron: 80 W/(m K)
Yes, iron is a good conductor of electricity because it has free electrons that can move easily through the material, allowing electricity to flow. This property makes iron suitable for use in electrical wiring and circuits.