It is plentiful, it is cheap to purify on an industrial scale, it is a strong metal useful for many things, by adding a few substances it becomes steel which is even stronger and has better properties.
It`s so special because it is the much attract to the magnet than other metal.
Each atom acts like a tiny magnet. When the atoms are aligned, the magnets produce magnetism. When an iron or nickel material comes near the magnet, its atoms align with the different pole facing the magnet. For example, if the magnet's atoms have the North side facing away, then the iron object will have the South side facing the magnet. So then they attract.
Every atom with the electron(s) revolving - or "spining" - around the atom's nucleus is a little magnet itself. Electrons of all atoms in a piece of material revolve (spin) in all possible directions, the magnetic field produced be each atom-magnet cancel each other and there is no general magnetic field in the material. If under the influence of an external magnetic flux picture does not change the material is said to be non-magnetic. On the contrary, if under the influence of the external magnetic flux the electrons spinning allign in the direction of the flux, the magnetic field of every atom allign too and produce a general magnetic field - the material is magnetic.
The atomic number or z number or the number of protons is what makes one atom different from another. The atomic number or z number or the number of protons is what makes one atom different from another.
because they love each other
Yes, cutting a magnet in half will make two magnets, one out of each half. The explanation of this lies in what gives the magnet its magnetic properties. When a magnet is made, small "volumes" of the metal matrix become magnets. These little spaces (called magnetic domains) are comprised of an atom or a few dozen atoms that have their magnetic axes aligned. The whole magnet is this way. That is why breaking it in half won't disrupt the vast majority of the magnetic domains. Each half of the broken magnet becomes a new magnet with a north and south pole.
in an atom protone makes the each element unique
The magnetic fields produced by each and atom is not aligned in the same direction and have random direction and thus they cancel each others magnetic field and thus the iron does not behave like a magnet
the shared valence electron pairs repel each other.
A temporary magnet is "charged" by aligning their electronic spins in one direction (each atom acts like a magnet this way, the the effect multiplies). It's what happens when you turn the power on an electromagnet.
Magnets are related to electrical currents; the electrical current produces a symmetrical magnetic field, i.e., it has a north and a south part.In the case of a permanent magnet, each atom has a tiny magnet, with its own north pole and south pole.
Every substance is made up of tiny units called atoms. Each atom has electrons, particles that carry electric charges. Spinning like tops, the electrons circle the nucleus, or core, of an atom. Their movement generates an electric current and causes each electron to act like a microscopic magnet.
Yes, electrons can collide with each other due to their charge. When two electrons come too close, they can repel each other because they have the same charge. These collisions can affect the behavior and properties of materials in various ways.
Sort of... In permanent magnets, magnetism is due to the movement of electrons around their atoms. Each atom is a small magnet, and there are more atoms aligned in one direction than in the other. If you consider the electron orbiting around the atom, or "spinning around its axis" as a "current", then yes.
The loosely bound electrons in each atom's outer shell.
An atom is unique due to its specific number of protons, neutrons, and electrons, which determine its chemical properties and behavior. The arrangement of electrons in the atom's electron cloud also contributes to its uniqueness by influencing its reactivity and ability to form chemical bonds. Additionally, the type of element an atom belongs to is determined by the number of protons in its nucleus, further influencing its characteristics.
The atoms of each element have a number of protons that is unique to each element. The number of protons makes one atom different from another.
Have a magnet underneath it with opposite sides facing each other or hold a magnet over the magnet you are trying to levitate. Opposite sides facing each other