Particular heat and hidden leat of combination and vaporizat…

Particular heat and hidden leat of combination and vaporization|Chemistry|Khan Academy
If the heat is not lost at this time, the heat gotten by the water will be equivalent to the heat lost by the copper. If you gather all the inbound Qs the heat you lose or get if you included you would get no, due to the fact that if the heat is not lost, that heat will be moved here. The melt requires an unique heat capability and this heat capability for water Divide 333,000 couls by a kg, This likewise implies that 999,000 coul heat The quantity of ice is absolutely no degrees Celsius we can turn sapphire into water.

And the technique we will utilize here copper heat loss, and water is heat gain, How do we compare these temperature levels? If the heat is not lost at this time, the heat gotten by the water will be equivalent to the heat lost by the copper. Yes, that'' s what we stated, the particular heat capability of water is really high, you can include a lot of heat and the temperature level will not alter much. If you gather all the inbound Qs the heat you lose or get if you included you would get absolutely no, due to the fact that if the heat is not lost, that heat will be moved here. The melt requires an unique heat capability and this heat capability for water Divide 333,000 couls by a kg, This likewise indicates that 999,000 coul heat The quantity of ice is no degrees Celsius we can turn sapphire into water.

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