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Differentiate molar heat capacity from specific heat capacity.
A 15.0 g mixture of LiCl and KNO3 are dissolved in 150.0 g of water, causing the temperature to increase by 1.68 ºC. Using the heats of dissolution of each component, calculate the mass of each component of the mixture. Use the specific heat of water for the solution.
Identify which between 1 mole water (H2O(l)) or 1 mole acetic acid (CH3COOH(l)) requires more heat to increase the temperature by 1 degree if the specific heat of acetic acid is 2.043 J/g-K
Calculate the molar heat capacity of manganese given its specific heat of 0.480 J/g-K.
A block of titanium weighing 250.0 g was heated from 25.00 °C to 150.0 °C. The process required 16.34 kJ of heat. Calculate the molar heat capacity of titanium in J/mol-°C.
Calculate the heat capacity of 215 g of liquid water.
A sample of gas with a mass of 50 g is heated from 20 °C to 300 °C while 300 J of work was done by the system, and its internal energy increased by 6000 J. Calculate the specific heat of the gas from the given information.