They all tend to be shiny. They're not all strong as alkali metals can be cut by a normal knife.
All of the alkaline earth metals are naturally occurring and they share similar properties: they are all rather reactive metals under standard conditions.
All of them. It is a property of metals.
Both metals can lose two electrons and both metals form ions with a 2+ charge.
It is a physical property. Malleability is a physical property in lots of metals (including copper). It is not a characteristic property, because it is not unique to copper. (Other metals share the same property).
all transition metals and are all magnetic.
If all her children are still living you have no rights in her property unless she left a share to you in her Will.If all her children are still living you have no rights in her property unless she left a share to you in her Will.If all her children are still living you have no rights in her property unless she left a share to you in her Will.If all her children are still living you have no rights in her property unless she left a share to you in her Will.
They are all solids. They have properties of metals and non metals.
they are metals.
Aluminum (Al) and Copper (Cu) are metals, and all metals share the same properties: Malleable (can be flattened or shaped) Heat and Electric conductivity Luster (shine) and Density (higher than non-metals) Aluminum (Al) and Copper (Cu) are metals, and all metals share the same properties: Malleable (can be flattened or shaped) Heat and Electric conductivity Luster (shine) and Density (higher than non-metals)
The group of elements that share characteristics of metals and non metals is metalloids.
Electrons. One of the definitions of a "metal" is that electrons can move somewhat freely through the material, so that the metal can conduct electricity. Non-metals are generally good insulators, and not much electricity can flow through them.
Non-metals are not ductile or malleable. Also, they are not lustrous apart from one exception. They gain electrons or share them in general to from compounds.