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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)
The phenomenon is called perspiration; each liquid has a specific enthalpy of vaporization.
This value is 198 J/kg.K at the melting point of uranium.
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The specific heat of aluminium is more than 3.8 times that for silver.
determination of specific heat capacity of liquid by method of electrical heating
The specific heat of liquid water is 4.183 J / g K. Lithium liquid has a higher specific heat at 4.379, as does Hydrogen gas at 14.30. Helium gas also does at 5.1932 Finally, liquid Ammonia has a higher specific heat at 4.700.
Yes, there is believe it or not it happens to be 429. This is the conductivity of silver which is the same as just saying the heat tempreture...!
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)
water has it's highest specific heat in it's liquid state at 4.184 J/g-K
The answer will depend on the quantity of the liquid and its specific heat.
Because silver teapots reflect the heat that is coming from the liquid therefore bouncing off the sides of the kettle and keeping the liquid warm. Whereas a black kettle would just absorb the heat which wouldn't keep the liquid warm. Also, silver is a bad absorber and a bad emitter.
the spesific heat capacity of a liquid by the mithod of cooling
carbon
When 5.1 kJ of heat energy is added to a 430 g sample of silver, find specific heat of Ag
Liquid silver is melted silver. Sometimes the colloidal silver is also called liquid silver.
The phenomenon is called perspiration; each liquid has a specific enthalpy of vaporization.