Thermal Physics
- Created by: Jade
- Created on: 03-01-13 11:28
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- Thermal Physics
- Specific Heat Capacity
- E = mc(delta)(theta)
- Jkg^-1K^-1
- Experiment
- c= VIt/m(delta)(theta)
- Specific Latent Heat
- Fusion
- Vapourisation
- E=mL
- Jkg^-1
- Solids, Liquids, Gases
- Particle spacing
- Density
- State
- Internal Energy
- Sum of random KEs and PEs
- Temperature
- Thermal Equilibrium
- Kelvin
- Absolute zero
- 0c = 273.15K
- pV/T = k
- p inversely proportional to V (constant temperature)
- Boyle's Law
- pV=nRT
- R = 8.31 Jmol^-1k^-1
- pV = NkT
- Boltzmann
- E = 3/2 kT
- p = 1/3 pc^2
- p=F/A
- Mole
- Avogadro
- NA = 6.02x10^23 mol^-1
- Avogadro
- p inversely proportional to V (constant temperature)
- Pressure
- p inversely proportional to V (constant temperature)
- Boyle's Law
- p inversely proportional to V (constant temperature)
- Internal Energy
- Internal Energy
- Sum of random KEs and PEs
- Temperature
- Thermal Equilibrium
- Kelvin
- Absolute zero
- 0c = 273.15K
- pV/T = k
- pV=nRT
- R = 8.31 Jmol^-1k^-1
- pV = NkT
- Boltzmann
- E = 3/2 kT
- p = 1/3 pc^2
- p=F/A
- Mole
- Avogadro
- NA = 6.02x10^23 mol^-1
- Avogadro
- pV=nRT
- Pressure
- Gas Laws
- Kinetic Theory
- Brownian Motion
- Assumptions
- Pressure
- Specific Heat Capacity
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