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Figure 16.44: Behavior of a liquid in a closed container.

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Presentation on theme: "Figure 16.44: Behavior of a liquid in a closed container."— Presentation transcript:

1 Figure 16.44: Behavior of a liquid in a closed container

2 Figure 16.47: The number of molecules in a liquid with a given energy versus kinetic energy at two temperatures.

3 Figure 16.48: The vapor pressure of water, ethanol, and diethyl ether as a function of temperature.

4

5 A liquid with ΔH vap =8.3145 J/mol boils on earth at 26.8 o C What is its boiling point on planet X with a pressure of 0.1 atmosphere? oKoK

6 Figure 16.50: The heating curve for a given quantity of water where energy is added at a constant rate. Let’s heat 5 grams of water from -20 o C to +150 O C This takes 5 steps

7 STEP 1: HEATING the ice: Specific heat capacity, s ice = 2.1 J/g. o C Energy to raise 1 gram 1 degree q1 = 2.1 J/g. o C x 5 g x 20 o C = 210 J

8 STEP 2: MELTING the ice: Heat of fusion, ΔH fus = 6.01 kJ/mol q2 = 6.01x10 3 J/mol x 5 g x (1mol/18.2g) = 1651 J

9 STEP 3: HEATING the water: Specific heat capacity, s water = 4.2 J/g. o C Energy to raise 1 gram 1 degree q3 = 4.2 J/g. o C x 5 g x 100 o C = 2100 J

10 STEP 4: VAPORIZING the water: Heat of vaporization, ΔH vap = 40.7 kJ/mol q4 = 40.7x10 3 J/mol x 5 g x (1mol/18.2g) = 11181 J

11 STEP 5: HEATING the steam: Specific heat capacity, s steam = 2.0 J/g. o C Energy to raise 1 gram 1 degree q5 = 2.0 J/g. o C x 5 g x 50 o C = 500 J

12 Q total = q1 + q2 + q3 + q4 + q5

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14 Figure 16.55: The phase diagram for water

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16 Figure 16.57: The phase diagram for water

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