Thermochemistry Intro to thermochem Discuss HEAT v TEMPERATURE
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Thermochemistry Intro to thermochem Discuss HEAT v. TEMPERATURE
Thermochemistry Thermochemistry: the study of energy (in the form of heat) changes that accompany physical & chemical changes Heat flows from high to low (hot to cool)
Thermochemistry p endothermic reactions: absorb energy in the form of heat; show a positive value for quantity of heat (q > 0) p exothermic reactions: release energy in the form of heat; show a negative value for quantity of heat (q < 0)
Magnitude of Heat Flow Units of heat energy: 1 1 kcal = 1, 000 cal = 1 Cal (nutritional) k. J = 1, 000 J calorie = 4. 184 J kcal = 4. 184 k. J
Magnitude of Heat Flow The relationship between magnitude of heat flow, q, and temperature change, T, is: q = C T q = magnitude of heat C = heat capacity (J/ C) of a calorimeter T = change in temp
Magnitude of Heat Flow For a pure substance of mass m (constant state), the expression of q can be written as: q = m c T q = magnitude of heat m = mass c = specific heat of substance (J/g C) T = change in temp
Specific Heat Specific heat = the amount of heat that must be added to a stated mass of liquid to raise its temp. by 1 C, with no change in state. Specific heat values (in J/g C): CO 2(g) = 0. 843 J/g C Cu(s) = 0. 382 J/g C Fe(s) = 0. 446 J/g C H 2 O (l) = 4. 184 J/g C
Example 1 How much heat is given off by a 50. 0 g sample of copper when it cools from 80. 0 to 50. 0 C? q = m c ΔT q = (50. 0 g)(0. 382 J/g C)(50. 0 C - 80. 0 C) q = (50. 0 g)(0. 382 J/g C)(-30. 0 C) q = -573 J (heat is given off)
Example 2 Iron has a specific heat of 0. 446 J/g C. When a 7. 55 g piece of iron absorbs 10. 33 J of heat, what is the change in temperature? If it was originally at room temp. (22. 0 C), what is the final temperature? q = m c ΔT 10. 33 J = (7. 55 g)(0. 446 J/g C)( T) T = 3. 07 C = Tf – 22. 0 C Tf = 25. 1 C
Example 3 The specific heat of copper is 0. 382 J/g C. How much heat is absorbed by a copper plate with a mass of 135. 5 g to raise its temperature from 25. 0 C to oven temperature (420 F)? F = (1. 8)( C) + 32 420 = (1. 8)(Tf) + 32 Tf = 215. 6 C q = m c ΔT q = (135. 5 g)(0. 382 J/g C)(190. 6 C) q = 9860 J = 9. 86 k. J
Calorimetry To measure the heat flow in a reaction, it is carried out in a calorimeter. qrxn = - qcalorimeter It is possible to calculate the amount of heat absorbed or evolved by the reaction if you know the heat capacity, Ccal, and the temp. change, ΔT, of the calorimeter: qrxn = - Ccal ΔT
Coffee Cup Calorimeter The cup is filled with water, which absorbs the heat evolved by the reaction, so: qice = -mw cw T
Coffee Cup Calorimeter Example When 1. 00 g of ammonium nitrate, NH 4 NO 3, is added to 50. 0 g of water in a coffee cup calorimeter, it dissolves, NH 4 NO 3 (s) NH 4+(aq) + NO 3 -(aq), and the temperature of the water drops from 25. 00 C to 23. 32 C. Calculate q for the reaction system. qcal = mw cw T qcal = (50. 0 g)(4. 18 J/g C)(-1. 68 C) qcal= -351 J (water releases heat) qrxn= -qcal = -(-351 J) = 351 J (endothermic)
Bomb Calorimeter
EXAMPLE 1: The reaction between hydrogen and chlorine, H 2 + Cl 2 2 HCl, can be studied in a bomb calorimeter. It is found that when a 1. 00 g sample of H 2 reacts completely, the temp. rises from 20. 00 C to 29. 82 C. Taking the heat capacity of the calorimeter to be 9. 33 k. J/ C, calculate the amount of heat evolved in the reaction. qcal = Ccal ΔT qcal = (9. 33 k. J/ C)(9. 82 C) qcal = 91. 6 k. J qrxn = -qcal = -91. 6 k. J
EXAMPLE 2: When 1. 00 mol of caffeine (C 8 H 10 N 4 O 2) is burned in air, 4. 96 x 103 k. J of heat is evolved. Five grams of caffeine is burned in a bomb calorimeter. The temperature is observed to increase by 11. 37 C. What is the heat capacity of the calorimeter in J/ C?
EXAMPLE 3: When twenty milliliters of ethyl ether, C 4 H 10 O. (d=0. 714 g/m. L) is burned in a bomb calorimeter, the temperature rises from 24. 7 C to 88. 9 C. The calorimeter heat capacity is 10. 34 k. J/ C. (a) What is q for the calorimeter? (b) What is q when 20. 0 m. L of ether is burned? (c) What is q for the combustion of one mole of ethyl ether? qcal = Ccal ΔT qcal = (10. 34 k. J/ C)(64. 2 C) qcal = 664 k. J
EXAMPLE 3: When twenty milliliters of ethyl ether, C 4 H 10 O. (d=0. 714 g/m. L) is burned in a bomb calorimeter, the temperature rises from 24. 7 C to 88. 9 C. The calorimeter heat capacity is 10. 34 k. J/ C. (a) What is q for the calorimeter? (b) What is q when 20. 0 m. L of ether is burned? (c) What is q for the combustion of one mole of ethyl ether? qrxn = -qcal qrxn = -664 k. J
EXAMPLE 3: When twenty milliliters of ethyl ether, C 4 H 10 O. (d=0. 714 g/m. L) is burned in a bomb calorimeter, the temperature rises from 24. 7 C to 88. 9 C. The calorimeter heat capacity is 10. 34 k. J/ C. (a) What is q for the calorimeter? (b) What is q when 20. 0 m. L of ether is burned? (c) What is q for the combustion of one mole of ethyl ether?
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