34 kJ of heat was added to 6.5 moles of solid H2O at –27 oC. What will be the final temperature of the H2O? The molar heat capacity of H2O (s) is 37.8 J mol–1 oC–1, and the molar heat capacity of H2O (l) is 75.2 J mol–1 oC–1. The heat of fusion of water is 6.03 kJ mol–1.
34 kJ of heat was added to 6.5 moles of solid H2O at –27 oC. What...
Given that the heat of fusion of water is -6.02 kJ/mol, that the heat capacity of H2O(l) is 75.2 J/mol⋅K and that the heat capacity of H2O(s) is 37.7 J/mol⋅K, calculate the heat of fusion of water at -13 ∘C.
Given that the heat of fusion of water is 6.02 kJ/mol, that the heat capacity of H2O(l) is 75.2 J>mol · K, and that the heat capacity of H2O(s) is 37.7 J/mol · K, calculate the heat of fusion of water at – 10 °C.
Given that the heat of fusion of water is +6.02 kJ/mol, that the heat capacity of H2O(l) is 75.2 J/mol⋅K and that the heat capacity of H2O(s) is 37.7 J/mol⋅K, calculate the heat of fusion of water at -14 ∘C.
Given that the heat of fusion of water is +6.02 kJ/mol, that the heat capacity of H2O(l) is 75.2 J/mol⋅K and that the heat capacity of H2O(s) is 37.7 J/mol⋅K, calculate the heat of fusion of water at -15 ∘C. Express your answer using two significant figures. deltaH= ___?____ kJ/mol
Assume 12,500 J of energy is added to 2.0 moles (36 grams) of H2O as an ice sample at 0 °C. The molar heat of fusion is 6.02 kJ/mol. The specific heat of liquid water is 4.18 J/(g • °C). The molar heat of vaporization is 40.6 kJ/mol. The resulting sample contains which of the following? A) only ice B) ice and water C) only water D) water and water vapor E) only water vapor
How much heat required to convert 36 grams (2 moles) of liquid water at 4.0 oC to liquid water at 50 oC? The delta-H of fusion for H2O is 6.02 kJ/mol and the heat capacity of liquid water is 4.18 J/goC A) 36 kJ B) 12.04 kJ C) 8.36 kJ D) 4.18 kJ E) 6.9 kJ
a) What is the molar heat capacity of liquid water? J/mol oC (b) What is the heat capacity of 7.60 mol of liquid water? J/ oC (c) How many kJ of heat are needed to raise the temperature of 3.02 kg of water from 36.4 oC to 68.3 oC? kJ
1. The heat capacity of a calorimeter is given as 1264 J/oC. Suppose the enthalpy of solution for calcium chloride (MM=111 g/mol) in water is given by the thermochemical equation: CaCl2(s) + H2O(l) → Ca2+(aq) + 2Cl-(aq) ΔH = -81.0 kJ/mol. Calculate the temperature change if 11.1 g of calcium chloride is dissolved in water in the calorimeter. 2. Given the following data, calculate ΔH for the reaction of two moles of carbon monoxide with oxygen gasto give carbon dioxide....
Substance molar heat capacity (C.)/J•mol-1.°C-1 75.3 specific heat capacity (C.) /J•g-lo°C-1 0.384 H2O(1) Cu(s) C,H,OH(l) (ethanol) Fe(s) 111.5 0.449 1. Fill in the empty entries in the table above. 2. If the same amount of energy is transferred to 1.0 g samples of each of the substances listed above, order them from largest AT to smallest AT. Explain. 3. Which is the consequence of copper's relatively low specific heat (0.385 J/(g°C)) compared to water (4.18 J/(g°C)) on the temperature change...
0.298 mol of a solid was dissolved in 320 mL of water at 24.7 oC. After the solid had fully dissolved, the final temperature of the solution was 31.2 oC. What is the molar heat of solution of the substance in kJ/mol?