| 1. | The latent heat of fusion is about 264� 289 kJ / kg.
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| 2. | You'd also need to think about heat of vaporization and heat of fusion.
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| 3. | How the hell are we missing the heat of fusion for such a common substance?
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| 4. | As it does so it absorbs an amount of heat energy called the latent heat of fusion.
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| 5. | The latent heat of fusion is the enthalpy change of any amount of substance when it melts.
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| 6. | :: The L's in part 3, stand for latent heat of fusion / vapourisation.
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| 7. | Based on the heat of fusion being, 1 tonne of refrigeration = 13, 954 kJ / h =.
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| 8. | Regular table salt has a melting point of 800 �C and a heat of fusion of 0.52 kJ / g.
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| 9. | Look at the specific heat of air versus the specific heat of water as well as the heat of fusion of water.
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| 10. | A high melting point results from a high heat of fusion, a low entropy of fusion, or a combination of both.
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