Mallabillity, conductivity of electrons, conductivity of heat, shining 'silvery' glance
electrical conductivity, malleability, & ductility.
you have to touch yourself really good like little boys in the dark
Ductility
Malleability
& Electrical Current (not sure about the last one)
Color, hardness, and texture
malleability, ductility, conductivity
luster, malleability, ductility
Behavior of valence electrons. ?
The atoms in metals like copper form METALLIC BONDS. There are three types of chemical bonds. So far, you know about ionic and covalent bonds. The third type of bond is called a metallic bond. Metals are the only elements that experience this type of bond. A metallic bond is a bond that holds atoms together in a metallic substance!!!Do you get it now? :D
Metals have metallic bonds.
One of the properties of metals is their tendency to lose valence electrons, in order for another metal to have complete valence electrons.
metals
it would have to kill itself
Behavior of valence electrons. ?
electrical conductivity, malleability, & ductility.
All of them, metals are metallic, specifically contain metallic bonds.
The atoms in metals like copper form METALLIC BONDS. There are three types of chemical bonds. So far, you know about ionic and covalent bonds. The third type of bond is called a metallic bond. Metals are the only elements that experience this type of bond. A metallic bond is a bond that holds atoms together in a metallic substance!!!Do you get it now? :D
Metals have metallic bonds.
electrical conductivity, malleability, & ductility.
One of the properties of metals is their tendency to lose valence electrons, in order for another metal to have complete valence electrons.
The type of bonds in metals are called metallic bonds.
Metallic bonds are bonds between metals. They consist of valence electrons in delocalized bonds covering the whole crystal. These electrons can move freely and are responsible for the special properties of metals such as electrical conductivity. Covalent bonds are electrons being shared and are usually between non-metals. They are localized to the atoms which are sharing them, resulting in individual molecules.
metals
Because covalent bonds are between elements without metallic properties, and in order for a bond to conduct electricity, the bond has to include two metals, AKA a metallic bond.