CHAPTER 1 Heating and Cooling Curves Notes IGCSE Cambridge

Changes of states can be explained by using the idea that particles are constantly in motion .
This is called the kinetic particle theory
we can explain a heating curve using ideas about the energy and motion of the particles.

Heating Curve

At point A Physical status is Solid

From A to B increasing heat energy increases vibration of the solid particles so the temperature of the solid increases

From B to C increasing the heat weakens the forces of attraction between particles so they begin to slide over each other . there is no temperature change because all energy supplied is used to overcome the forces between the particles instead of raising the temperature . the substance melts

At C , the substance is all at liquid state.

 Note this is the same curve as above


From C to D : increasing the energy increases the motion of the particles in the liquid so the temperature of the liquid increases.

From D to E : forces of attraction between liquid particles weakens to particles start to move away from each other . there is no temperature change as the energy supplied is used to break the forces between the particles , the substance boils .

From E to F : increasing the energy increases the speed of the gas particles . so the temperature increases and the gas particles are getting far away from each other.


Cooling Curve

Almost opposite is happening


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