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Understanding Specific Latent Heat

 
4.3

 Understanding Specific Latent Heat
 
 

Specific latent heat, \(l\) (SLH)

  
  The heat energy required to change phase of 1kg object at a constant temperature  
     
 
  SLH of fusion  
  The heat energy required to change 1kg of solid to liquid at a constant temperature  
     
 
  SLH of vaporization  
  The heat energy required to change 1kg of liquid to gas at consant temperature  
     
 
  Formula  
  \(Q=ml\)

 where Q = energy, m = mass, \(l\) = specific latent heat

  
     
 
 

HEATING

  1. Temperature increase:
    • Energy absorbed used to increase the average kinetic energy of molecules.
       
  2. Temperature constant:
    • Energy absorbed is used ot overcome the forces of attraction between molecules. Average kinetic energy of molecules does not change.
 

COOLING

  1. Temperature decrease:
    • Energy released decreses the average kinetic energy of molecules.
       
  2. Temperature constant:
    • Latent heat released to the surrounding, forces of attraction between molecules become stronger. Average kinetic energy of molecules does not change.
 
  Electrical energy  
  \(Q=Pt\)where Q = energy, P = power, t = time  
     
 
  Conservation of energy  
 
  •  \(Pt=mc\Delta\theta\)
  • \(Pt=ml\)
  
     
 
 

 

The views expressed in the notes here are those of the contributor and don’t necessarily represent the views of Pandai.

Understanding Specific Latent Heat

 
4.3

 Understanding Specific Latent Heat
 
 

Specific latent heat, \(l\) (SLH)

  
  The heat energy required to change phase of 1kg object at a constant temperature  
     
 
  SLH of fusion  
  The heat energy required to change 1kg of solid to liquid at a constant temperature  
     
 
  SLH of vaporization  
  The heat energy required to change 1kg of liquid to gas at consant temperature  
     
 
  Formula  
  \(Q=ml\)

 where Q = energy, m = mass, \(l\) = specific latent heat

  
     
 
 

HEATING

  1. Temperature increase:
    • Energy absorbed used to increase the average kinetic energy of molecules.
       
  2. Temperature constant:
    • Energy absorbed is used ot overcome the forces of attraction between molecules. Average kinetic energy of molecules does not change.
 

COOLING

  1. Temperature decrease:
    • Energy released decreses the average kinetic energy of molecules.
       
  2. Temperature constant:
    • Latent heat released to the surrounding, forces of attraction between molecules become stronger. Average kinetic energy of molecules does not change.
 
  Electrical energy  
  \(Q=Pt\)where Q = energy, P = power, t = time  
     
 
  Conservation of energy  
 
  •  \(Pt=mc\Delta\theta\)
  • \(Pt=ml\)
  
     
 
 

 

The views expressed in the notes here are those of the contributor and don’t necessarily represent the views of Pandai.
Chapter : Heat
Topic : Specific Latent Heat
Form 4 Physics
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