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8. A 50.0 g sample of water at 70.0 °C is mixed with 60.0 g of water at 20.0 °C. Find the final temperature of the mixture if no heat is transferred to or from the container or surroundings. AT Tp-Ti mple Eon) 10°C - 20°C 50°C = Te (Ean-21 9. The molar heat of solution of a substance is found to be +21.38 kJ/mol. The addition of 0.100 mol of this substance to 1.000 L of water initially at 40.0 °C results in a temperature decrease. Assume the specific heat of the resulting solution to be equal to that of pure water. Find the final temperature of the solution (Also assume that the heat capacity of the calorimeter is negligible.) cherac les, you can measure the absorbenceand use the ww to ight 10. A student using a calibrated solution calorimeter measured a temperature decrease of 1.10 K when 1.00 g of KNO3 was added to 74.40 g of deionized water in the calorimeter. The specific heat capacity of the solution calorimeter was found to be 4.15 J/g•K. Calculate the experimental value of the molar heat of solution of KNO3, AHsoln. Was the dissolution of this salt exothermic or endothermic? 23