Molar heat capacity of liquid water = 75.3538
Molar heat capacity = molar mass x specific heat
(4.1813 J x g-1 K-1) x (18.0153 g mol-1) = 75.327 J mol-1 K-1
The Molar heat Capacity of water is 75.2
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Different substances have varied molar heat capacities. The molar heat capacity of a substance refers to the amount of heat energy needed to raise 1 mole of that substance by 1 degree Celsius.
Water is covalently bonded and has a high heat capacity.
It is a known fact : Molar heat of sublimation = molar heat of fusion + molar heat of vaporization so, molar heat of vaporization = molar heat of sublimation - molar heat of fusion Mv = 62.3 kJ/mol - 15.3 kJ/mol Mv = 47 kJ/mol.
yes it does give a low heat capacity.
Specific heat is the heat capacity divided by the heat capacity of water, which makes it dimensionless. To obtain molar heat capacity from specific heat for a material of interest, simply multiply the specific heat by the heat capacity of water per gram [1 cal/(g*C)]and multiply by the molecular weight of the substance of interest. For example, to obtain the molar heat capacity of iron Specific heat of iron = 0.15 (note there are no units) Molar heat capacity of iron = 0.15*1 cal/(g*C)*55.85 g /gmole = 8.378 cal/(gmole*C)
The molar heat capacity of selenium is 25,363 J/mol.K.
heat capacity= specific heat x mass molar heat capacity = specific heat x molar mass - Hope this helps!!
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no be quiet
Different substances have varied molar heat capacities. The molar heat capacity of a substance refers to the amount of heat energy needed to raise 1 mole of that substance by 1 degree Celsius.
The molar heat capacity of hydrogen (H2) is 28,835 J/mol/K.The molar heat capacity of oxygen (O2) is 29,378 J/mol/K.
Another way to say heat capacity is thermal capacity.
If a body of water has a high heat capacity, it can store more thermal energy making it a good heat sink.
because they have free electrons in their outer most shell
1000 g of water