g/mol 2. When 4.98 g of NaOH was dissolved in 49.72 g of water in a calorimeter at 23.7°C, the temperature of the solution went up to 50.1°C. Is this dissolution reaction exothermic? Why? a. b. Calculate qH,0, using Equation 1. joules c. Find AH for the reaction as it occurred in the calorimeter (Eq. 5). AH = joules

Transcribed Image Text:

Experiment 14 Advance Study Assignment: Heat Effects and Calorimetry 1. A metal sample weighing 147.90 g and at a temperature of 99.5°C was placed in 49.73 g of water in a calo- rimeter at 23.0°C. At equilibrium the temperature of the water and metal was 41.8°C. metal a. What was At for the water? (At = tanal - tinitial) T左= 99.5% 4t<(418を-23.6℃ /8.8% 18.8 °C H20 49.739 b. What was At for the metal? TE= 23,0°C At = (48%-79.5) = 57.72 -57.7 38こ How much heat flowed into the water? (Take the specific heat of the water to be 4.18 J/g°C.) °C C. AH=4,1E) = 1°C e latm 99.5 x 4.18 3907.98 3907.98) joules 319.77 d. Calculate the specific heat of the metal, using Equation 3. 9ニmedt 3407-48 J (14746) Cs (-57.7C) O4579 joules/g°C e. What is the approximate molar mass of the metal? (Use Eq. 4.) g/mol 2. When 4.98 g of NaOH was dissolved in 49.72 g of water in a calorimeter at 23.7°C, the temperature of the solution went up to 50.1°C. Is this dissolution reaction exothermic? Why? a. b. Calculate qH,0, using Equation 1. joules c. Find AH for the reaction as it occurred in the calorimeter (Eq. 5). ΔΗ- joules (continued on following page)