High electrical conductivity, high heat conductivity, ductility, malleability, high temperatures at boiling.
When and acid dissolves, ions are released, and the more ions in the water, the more conductivity it has.
ionic salt
Examples of useful properties: hardness, resistance to corrosion, high thermal conductivity, high electrical conductivity, ductility, maleability, high melting point, easy machining, possibilty to form alloys, insolubility in water, etc.
Low conductivity is better if you don't want electricity to pass. High conductivity is better if you do want electricity to pass. Also, water itself is actually an insulator (very low conductivity) but the impurities in water can be great conductors. Pure water will stop electric flow, but it is very difficult (outside of a lab) to get truly pure water.
its a high flammibillity and low conductivity
No. In fact it is the opposite. Conductivity is the reciprocal of resistivity so a high resistivity means low conductivity. peace.
Usually it is, but exceptional case is of Graphite which has low thermal conductivity.
If a material is going to be used for electrical wiring, it must have high conductivity. Conductivity is a noun.
No, metals have high conductivity but has low resistivity.
The electric conductivity is 0.139 10 to the 6th power per centimeter. Therefore the conductivity of potassium is low.
Copper has a high thermal conductivity, not low. This is a good generalization of any metal, although they vary in conductivity.
High density high conductivity
Metal wire has high electrical conductivity.
Conductor.
Any material which has high thermal conductivity can easily transfer energy as heat. As far as I know, all metals have high thermal conductivity. Copper, gold and silver especially have high thermal conductivity. Diamond and graphene have VERY high thermal conductivity, so this is not restricted to only metals.
this is wasting time