Temperature indicate kinetic energy density in molecular vibration. Over phase change, energy go to motion and fight against molecular interaction make it mobile.
Liquid is more mobile in compare to solid
Vapour is more mobile in compare to liquid.
Molecular vibration (temperature) stay the same while the energy input go to mobility (latent heat).
During a phase change, a substance will remain at a constant temperature while it is being heated. In the case of melting ice, the heat initially goes into separating water molecules from the ice lattice, which is melting. During that time, the heat goes into continued melting of the ice and the temperature remains constant. Once all of the ice is melted, adding additional heat will increase the temperature of the now liquid water.
It goes down :P
Evaporation (or sublimation IF it goes straight from solid to gas).
endothermic phase change, where it absorbs heat from its surroundings to break the hydrogen bonds holding the water molecules in a solid lattice structure. As a result, the ice cube converts into liquid water at the same temperature as its melting point.
As temperature goes up density goes down. As volume goes up density goes down. As mass goes up (or increases) density also increases, or in other words, it freezes.
liquid to solid
The energy that goes into temperature change is being used to change the state of the water, and until the transition is complete, it will not change temperature. The same goes for turning liquid water into a vapor. It is called the "latent heat", and sometimes "heat of fusion".
When solid ice becomes liquid, the temperature goes higher.
No, it is the melting point. Ice changes to water when it melts, not when it boils.
both. It depends what substance it is. For example: solid water (ice) melts into liquid water (water) and then that melts into gas water (water vapour). Another example is that frozen carbon dioxide (c02)which is a solid also known as dry ice, melts into c02 gas hence the name dry ice because when it melts it goes straight into a gas state.
It goes from the solid state to the liquid state.
During the melting process, the heat is being used to break apart the bonds holding the solid ice together. None of the heat goes into changing the temperature, as it all goes into the phase change. So, during the actual melting process, the temperature does NOT change.
Aluminum is a metal and is solid at room temperature. Since being frozen is the state of matter that is solid, rather than liquid or gas, aluminum at room temperature can be said to be frozen. It does not fell cold, because room temperature is not cold for us. Aluminum melts when the temperature goes above 660 °C (1,220 °F) and freezes when the temperature is below that. It boils, and turns into a gas when the temperature is above 2,519 °C (4,566 °F).
Three things that will remain equal, regardless of where the solid matter goes are temperature, mass and pressure.
During a phase change, a substance will remain at a constant temperature while it is being heated. In the case of melting ice, the heat initially goes into separating water molecules from the ice lattice, which is melting. During that time, the heat goes into continued melting of the ice and the temperature remains constant. Once all of the ice is melted, adding additional heat will increase the temperature of the now liquid water.
Ice is melted at any temperature over 0 oC; the intermolecular bonds are weakened.
Water goes from a liqiud to solid cooler tempeture Remains the same substance