there are no units given, so I assume your working in degrees c and joules?
I'm afriad its not clear from the question what you want to know?
You've said there is some water that is at -8c, and that it has a speicifc heat capacity of 2.04kj/kg-K after it has frozen? and that it gives up 332kJ/kg when it becomes a solid (ice)?
heat energy required to raise the temperature of ice by 29 celsius =specific heat capacity of ice * temperature change *mass of ice + to change 1kg of ice at 0 celsius to water at 0 celsius =specific latent of fusion of ice*mass of water + heat energy required to raise the temperature of water by 106 celsius =specific heat capacity of water * temperature change *mass of ice + to change 1kg of water at 106 celsius to steam at 106 celsius =specific latent of fusion of ice*mass of steam
Water has a greater specific heat.
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Looking for the same thing i can only hazard a guess that it will be close to that of pure water and it would vary from region to region. The specific heat capacity of water is 4.18 J/(g x °C).
D. low freezing point
The specific heat capacity of water does not change much within-phase (ie, as a solid it has one specific heat capacity, as a liquid/gas it has another)
heat energy required to raise the temperature of ice by 29 celsius =specific heat capacity of ice * temperature change *mass of ice + to change 1kg of ice at 0 celsius to water at 0 celsius =specific latent of fusion of ice*mass of water + heat energy required to raise the temperature of water by 106 celsius =specific heat capacity of water * temperature change *mass of ice + to change 1kg of water at 106 celsius to steam at 106 celsius =specific latent of fusion of ice*mass of steam
At 20°C the specific heat capacity of water is 4.183 J/g °C or 4.183 J/gK.
It's both! Generally, people talk about water going from ice to water to gas instead of the other way around. Freezing point = melting point (The scientific names: melting - fusion, freezing - crystallization)
The temperature at which water can be transformed from liquid to solid, the temperature at which water must be in order for the heat of fusion to be extracted from it. The freezing point (also the melting point) of water is 0 degrees Celsius which is the same as 32 degrees Fahrenheit.
Water.
specific heat
Water has a MUCH higher specific heat than hydrogen.
water
Water has a greater specific heat.
- Water is an oxide of hydrogen: H2O- Water can form associations of molecules by hydrogen bonding- Water can be decomposed by electrolysis- Water is a very good solvent- Water is miscible wth many liquids- The specific heat capacity of water is 4,1814 J/g.K- The enthalpy of fusion of ice is 333,55 kJ/kg
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