no
copper wire because we all know that metal strengthens the magnetic field but copper has a special property that strengthens the magnetic field further so copper is the answer P.S. i already did the experiment
Copper wire itself is not inherently magnetic, as copper is not a ferromagnetic material like iron or nickel. However, if a current is passed through the copper wire, it can create a magnetic field around the wire. This is the principle behind electromagnets.
Copper II oxide is not magnetic. It is a non-magnetic material due to its crystal structure and lack of unpaired electrons.
Copper wire is considered a homogeneous substance because it is made up of only one type of material, which is copper. It has uniform properties throughout its structure, making it a homogeneous material.
Copper wire is a substance because it is made up of a single type of material, which is copper. It is not a mixture of different substances.
No, copper is not magnetic. That said, if the copper wire has an electric current flowing through it then it will generate its own magnetic field around the wire. It seems feasible that this could be enough to move the wire if you have another magnet near it.
No, copper wire is not magnetic.
No, a copper wire that is not carrying a current will not be attracted to a magnet. Copper is not a magnetic material, so it does not interact with magnetic fields in the same way that magnetic materials like iron or nickel do.
copper wire because we all know that metal strengthens the magnetic field but copper has a special property that strengthens the magnetic field further so copper is the answer P.S. i already did the experiment
Copper wire itself is not inherently magnetic, as copper is not a ferromagnetic material like iron or nickel. However, if a current is passed through the copper wire, it can create a magnetic field around the wire. This is the principle behind electromagnets.
A copper wire can be used to make an electromagnet by wrapping it around a magnetic core material such as iron. When an electric current flows through the wire, it creates a magnetic field around the wire, which magnetizes the core material.
When a magnet is placed near a copper material, no attraction or repulsion occurs because copper is not a magnetic material. However, moving a magnet near a copper wire induces an electric current to flow through the wire, a phenomenon known as electromagnetic induction.
A copper wire produces a magnetic field when an electric current flows through it. This is due to the interaction between the moving electrons in the wire and the magnetic field they generate.
To produce an electromagnet, you will need a coil of wire (such as copper wire), a power source (such as a battery), and a magnetic material (such as iron) to create a magnetic field when current flows through the coil.
" No copper isn't a magetic material " . From the science research scientists have concluded this .
Copper is not a magnetic material and does not magnetize easily.
To create an electromagnet, you will need a coil of wire (usually copper), a source of electric current (such as a battery), and a magnetic material like iron. Placing the coil of wire around the magnetic material and passing an electric current through the coil will generate a magnetic field, turning the setup into an electromagnet.