Since Osmium the most dense element has a density of 22.59 g/cm3 but has a melting point of 3033 celsius, and tantalum hafnium carbide a superalloy which has the highest melting point of 4215 celsius but only a density of 14.65 g/cm3, there seems to be no relationship, however since pressure increases temperature one would think the denser an object the more resistant to melting that object would be, so it would be linear and therefore have a predictable relationship. It clearly does not. There is no relationship between density and melting point
density=mass/volume
density only affected by the mass and its volume.
They are not dependant on each other.
Density is grams per milliliter, and Molarity is moles/Liter. In a sense, they are related because each is gram weight over part of a liter
I think it is inverse relation because when p increases mp would decrease and vica versa.
Generally a high density is related to a high boiling point.
As the atomic number increases so does the melting point, meaning the the molecules get stronger therefor you need a higher melting point to break the molecules.
i would say Ionic compounds tend to have higher melting points
At standard pressure the melting (freezing) point of pure water is 0 0C.
You would need to look at a temperature / pressure graph
Oxygen's melting point is .Melting Point: 54.36 K (-218.79°C or -361.82°F)
is the same
manunited
yes of course melting point depends on atmospheric pressure along with type of bonding between the molecule.
The melting point of ice actually DECREASES with an INCREASE in pressure.
As the atomic number increases so does the melting point, meaning the the molecules get stronger therefor you need a higher melting point to break the molecules.
No basic Difference between melting point and Drop point.
The melting point is not changed by pressure. It is still over 32O
i would say Ionic compounds tend to have higher melting points
Boiling point is most affected by pressure. Note that freezing point and melting point are in fact the same.
The melting point of a solid is the temperature at which it changes STATE from SOLID to LIQUID. At the melting point the solid and liquid phase exist in equilibrium. The melting point of a substance depends (usually slightly) on pressure and is usually specified at STANDARDatmospheric pressure.
the melting point decreases as pressure increases, so the further into the earth feldspar is pushed, the higher the pressure and the lover the melting point
melting point decreases with pressure and increases with impurities (like saw dust). boiling point increases with impurities and also increases with pressure.