The overall magnetic and electrical behavior depends on the interactions be-
tween the different atoms: double ex-
change interaction, super exchange interaction, Jahn Teller effect and charge ordering
Yes, magnetic properties can vary among different metals due to variations in their atomic structure and electron configurations. Some metals are naturally magnetic (ferromagnetic), while others are not or are only weakly magnetic. For example, iron, nickel, and cobalt are highly magnetic, while metals like copper and aluminum are not magnetic under normal conditions.
Yes, amorphous metals are metallic in nature. They possess the characteristic metallic properties such as high electrical and thermal conductivity, luster, and ductility. However, they lack the crystalline structure of traditional metals and exhibit unique properties like high strength and corrosion resistance.
Most metals are NOT magnetic; Iron, Steel (Contains Iron in it), Nickel and Cobalt are the only magnetic materials. Nearly ALL metals are electrical conductors, however, so don't get it mixed up. Last edited (re-written) by 09pwang.
Transition metals can have high density due to their high atomic masses and compact atomic structures. However, the density of transition metals can vary widely depending on the specific metal and its crystal structure.
Uh, no. It would have to be metal. It is normally non-magnetic BUT it CAN be magnetic if combined with one or more metals.
Not everything in the universe is magnetic. While many objects, such as certain metals, can be magnetic, there are also non-magnetic materials and objects. Magnetic properties depend on the atomic structure of a material.
No, iron is not the only magnetic metal. Other magnetic metals include nickel, cobalt, and some alloys of rare earth metals. These metals can be magnetized and exhibit magnetic properties due to the alignment of their atomic structure.
NOT all metals are magnetic
No, brick has a solid structure. Brick is made from rice husk ask and has a reddish black color to it.
Noble metals, such as gold, silver, and platinum, are generally not magnetic. They exhibit weak magnetic properties, but they do not possess significant ferromagnetism like iron or cobalt. Some noble metals can show paramagnetism under specific conditions, but this is not a defining characteristic. Overall, noble metals are primarily considered non-magnetic.
X-rays can detect flaws in metals, determine crystal structure,radiography, etc.
They use electromagnets to separate magnetic metals from non-magnetic metals/materials in scrapyards.