they conduct electricity as they have free electrons.
they are good conductors of heat and electricity
Electrical conductivity.
Mac
solidvery high melting pointnot soluble in waterelectrically conductivemalleableductilelustrous
Malleability, ductility, and high electrical and heat conductivity.
Copper, nickel, silver and gold are the base metals used in coins. Well, gold maybe not so much. Sorry, couldn't find the physical properties. Maybe someone else will add the info.Chemical properties of Gold:- nonreactive to most acids- not readily forming compounds with oxygen- highly malleable- excellent electrical conductivityChemical properties of Silver:- nonreactive to most acids- not readily forming compounds with oxygen- very malleable- the best of all metals in electrical conductivityChemical properties of Copper:- nonreactive to most acids- not readily forming compounds with oxygen- very malleable- the second best of all metals in electrical conductivity
They are lustrous, ductile, and malleable, as well as good conductors of heat and electricity, and they tend to have high density.
They have to properties of metals. Most have high melting and boiling points. They're excellent conductors of electricity.
They have high ionization energy and high electronegativity.
solidvery high melting pointnot soluble in waterelectrically conductivemalleableductilelustrous
Malleability, ductility, and high electrical and heat conductivity.
The most common properties are, black solid (except diamond), insoluble in water, combustible.
The most common way is to find an alternative material with similar properties.
Density
Copper, nickel, silver and gold are the base metals used in coins. Well, gold maybe not so much. Sorry, couldn't find the physical properties. Maybe someone else will add the info.Chemical properties of Gold:- nonreactive to most acids- not readily forming compounds with oxygen- highly malleable- excellent electrical conductivityChemical properties of Silver:- nonreactive to most acids- not readily forming compounds with oxygen- very malleable- the best of all metals in electrical conductivityChemical properties of Copper:- nonreactive to most acids- not readily forming compounds with oxygen- very malleable- the second best of all metals in electrical conductivity
The physical properties of transition metals are determined by their electron configurations. Most transition metals are hard solids with relatively high melting and boiling points. Differences in properties among transition metals are based on the ability of unpaired d electrons to move into the valence level. The more unpaired electrons in the d sublevel, the greater the hardness and the higher the melting and boiling points.
Nonmetals lack most of the properties of a metal.
shush this not school
Most metals. Non-metals usually do NOT have both these properties.
Their properties are similar with non-metals and metals. That's why they're called semi-metals. They are reactive depending on the element they are reacting with, and they are semi-conductors.