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40 Pages
Underwood 1991
Course: STAT 412, Fall 2008School: Washington State
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Martin Luther - STAT - 412
Washington State - STAT - 412
1. Abstract Purpose of assignment Narrative description of hypotheses (1-2 sentences) Methods or tests performed on data (1-2 sentences) Results (1-2 sentences) Interpretation/implications of results (1-2 sentences) Example (NOTE: each assignmen
Martin Luther - STAT - 412
1. Abstract Purpose of assignment Narrative description of hypotheses (1-2 sentences) Methods or tests performed on data (1-2 sentences) Results (1-2 sentences) Interpretation/implications of results (1-2 sentences) Example (NOTE: each assignmen
Washington State - STAT - 412
Experimental DesignBrian Tissot Washington State University VancouverLecture overview1. 2. 3. 4. Objectives & Challenges Design Execution ManagementExperimental DesignScientific study of the natural world Major components:1. Scientific metho
Martin Luther - STAT - 412
Experimental DesignBrian Tissot Washington State University VancouverLecture overview1. 2. 3. 4. Objectives & Challenges Design Execution ManagementExperimental DesignScientific study of the natural world Major components:1. Scientific metho
Washington State - CHEM - 0
Chem 331, Homework #1(Due Wed., Aug. 29th, 2007 at beginning of class) Topics: thermometry, ideal gas law manipulations, math review(1) (a) For the determination of the temperature of the melting point of mercury (a standard fixed point for thermo
Washington State - CHEM - 331
Chem 331, Homework #1(Due Wed., Aug. 29th, 2007 at beginning of class) Topics: thermometry, ideal gas law manipulations, math review(1) (a) For the determination of the temperature of the melting point of mercury (a standard fixed point for thermo
Martin Luther - CHEM - 0
Chem 331, Homework #1(Due Wed., Aug. 29th, 2007 at beginning of class) Topics: thermometry, ideal gas law manipulations, math review(1) (a) For the determination of the temperature of the melting point of mercury (a standard fixed point for thermo
Martin Luther - CHEM - 331
Chem 331, Homework #1(Due Wed., Aug. 29th, 2007 at beginning of class) Topics: thermometry, ideal gas law manipulations, math review(1) (a) For the determination of the temperature of the melting point of mercury (a standard fixed point for thermo
Washington State - CHEM - 0
Washington State - CHEM - 331
Martin Luther - CHEM - 0
Martin Luther - CHEM - 331
Washington State - CHEM - 0
Chem 331, Homework #2(Due Fri., Sept. 7th, 2007 at beginning of class) Topics: heat, work, 1st law of thermodynamics, enthalpy(1) (a) Calculate q, w, U, and H for the reversible isothermal expansion at 300 K of 5.00 mol of an ideal gas from 500 to
Washington State - CHEM - 331
Chem 331, Homework #2(Due Fri., Sept. 7th, 2007 at beginning of class) Topics: heat, work, 1st law of thermodynamics, enthalpy(1) (a) Calculate q, w, U, and H for the reversible isothermal expansion at 300 K of 5.00 mol of an ideal gas from 500 to
Martin Luther - CHEM - 0
Chem 331, Homework #2(Due Fri., Sept. 7th, 2007 at beginning of class) Topics: heat, work, 1st law of thermodynamics, enthalpy(1) (a) Calculate q, w, U, and H for the reversible isothermal expansion at 300 K of 5.00 mol of an ideal gas from 500 to
Martin Luther - CHEM - 331
Chem 331, Homework #2(Due Fri., Sept. 7th, 2007 at beginning of class) Topics: heat, work, 1st law of thermodynamics, enthalpy(1) (a) Calculate q, w, U, and H for the reversible isothermal expansion at 300 K of 5.00 mol of an ideal gas from 500 to
Washington State - CHEM - 0
Washington State - CHEM - 331
Martin Luther - CHEM - 0
Martin Luther - CHEM - 331
Washington State - CHEM - 0
Chem 331, Homework #3(Due Mon., Sept. 17th, 2007 at beginning of class) Topics: manipulating state functions, and , heating/heat capacities" !C % (1) Show that for an ideal gas, $ v ' = 0 # !V & T 1 $ #V ' & ) for a van der Waals V % #P ( T(2)
Washington State - CHEM - 331
Chem 331, Homework #3(Due Mon., Sept. 17th, 2007 at beginning of class) Topics: manipulating state functions, and , heating/heat capacities" !C % (1) Show that for an ideal gas, $ v ' = 0 # !V & T 1 $ #V ' & ) for a van der Waals V % #P ( T(2)
Martin Luther - CHEM - 0
Chem 331, Homework #3(Due Mon., Sept. 17th, 2007 at beginning of class) Topics: manipulating state functions, and , heating/heat capacities" !C % (1) Show that for an ideal gas, $ v ' = 0 # !V & T 1 $ #V ' & ) for a van der Waals V % #P ( T(2)
Martin Luther - CHEM - 331
Chem 331, Homework #3(Due Mon., Sept. 17th, 2007 at beginning of class) Topics: manipulating state functions, and , heating/heat capacities" !C % (1) Show that for an ideal gas, $ v ' = 0 # !V & T 1 $ #V ' & ) for a van der Waals V % #P ( T(2)
Washington State - CHEM - 0
Washington State - CHEM - 331
Martin Luther - CHEM - 0
Martin Luther - CHEM - 331
Washington State - CHEM - 0
Chem 331, Homework #4 (Thermochemistry)(Due Mon., Oct. 1st, 2007 at beginning of class) (1) Calculate the molar heat of vaporization of water at 25C. The heat of vaporization of water at 100C is 40.68 kJ/mol. (2) Calculate !H ro and !U ro at 298.15
Washington State - CHEM - 331
Chem 331, Homework #4 (Thermochemistry)(Due Mon., Oct. 1st, 2007 at beginning of class) (1) Calculate the molar heat of vaporization of water at 25C. The heat of vaporization of water at 100C is 40.68 kJ/mol. (2) Calculate !H ro and !U ro at 298.15
Martin Luther - CHEM - 0
Chem 331, Homework #4 (Thermochemistry)(Due Mon., Oct. 1st, 2007 at beginning of class) (1) Calculate the molar heat of vaporization of water at 25C. The heat of vaporization of water at 100C is 40.68 kJ/mol. (2) Calculate !H ro and !U ro at 298.15
Martin Luther - CHEM - 331
Chem 331, Homework #4 (Thermochemistry)(Due Mon., Oct. 1st, 2007 at beginning of class) (1) Calculate the molar heat of vaporization of water at 25C. The heat of vaporization of water at 100C is 40.68 kJ/mol. (2) Calculate !H ro and !U ro at 298.15
Washington State - CHEM - 0
Washington State - CHEM - 331
Martin Luther - CHEM - 0
Martin Luther - CHEM - 331
Washington State - CHEM - 0
Washington State - CHEM - 331
Martin Luther - CHEM - 0
Martin Luther - CHEM - 331
Washington State - CHEM - 0
Chem 331, Homework #5 (Entropy Calculations)(Due Mon., Oct. 8st, 2007 at beginning of class) (1) Show that for a reversible Carnot cycle (abcda) with an ideal gas for the working substance,wcycle = !nR (Th ! Tc ) ln qab = +nRTh ln qcd = !nRTc lna
Washington State - CHEM - 331
Chem 331, Homework #5 (Entropy Calculations)(Due Mon., Oct. 8st, 2007 at beginning of class) (1) Show that for a reversible Carnot cycle (abcda) with an ideal gas for the working substance,wcycle = !nR (Th ! Tc ) ln qab = +nRTh ln qcd = !nRTc lna
Martin Luther - CHEM - 0
Chem 331, Homework #5 (Entropy Calculations)(Due Mon., Oct. 8st, 2007 at beginning of class) (1) Show that for a reversible Carnot cycle (abcda) with an ideal gas for the working substance,wcycle = !nR (Th ! Tc ) ln qab = +nRTh ln qcd = !nRTc lna
Martin Luther - CHEM - 331
Chem 331, Homework #5 (Entropy Calculations)(Due Mon., Oct. 8st, 2007 at beginning of class) (1) Show that for a reversible Carnot cycle (abcda) with an ideal gas for the working substance,wcycle = !nR (Th ! Tc ) ln qab = +nRTh ln qcd = !nRTc lna
Washington State - CHEM - 0
T/K 15 20 25 30 35 40 50 60 70 90 110 130 150 170Cp/J K-1 mol-1Cp/J K-1 mol-1 3.72 7.74 12.09 16.69 20.79 23.97 29.25 33.47 36.32 40.63 43.81 47.24 51.04 55.1y = -1.2950E-07x4 + 7.5025E-05x3 - 1.5415E-02x2 + 1.5098E+00x - 1.6433E+01 60 R2 = 9.9
Washington State - CHEM - 331
T/K 15 20 25 30 35 40 50 60 70 90 110 130 150 170Cp/J K-1 mol-1Cp/J K-1 mol-1 3.72 7.74 12.09 16.69 20.79 23.97 29.25 33.47 36.32 40.63 43.81 47.24 51.04 55.1y = -1.2950E-07x4 + 7.5025E-05x3 - 1.5415E-02x2 + 1.5098E+00x - 1.6433E+01 60 R2 = 9.9
Martin Luther - CHEM - 0
T/K 15 20 25 30 35 40 50 60 70 90 110 130 150 170Cp/J K-1 mol-1Cp/J K-1 mol-1 3.72 7.74 12.09 16.69 20.79 23.97 29.25 33.47 36.32 40.63 43.81 47.24 51.04 55.1y = -1.2950E-07x4 + 7.5025E-05x3 - 1.5415E-02x2 + 1.5098E+00x - 1.6433E+01 60 R2 = 9.9
Martin Luther - CHEM - 331
T/K 15 20 25 30 35 40 50 60 70 90 110 130 150 170Cp/J K-1 mol-1Cp/J K-1 mol-1 3.72 7.74 12.09 16.69 20.79 23.97 29.25 33.47 36.32 40.63 43.81 47.24 51.04 55.1y = -1.2950E-07x4 + 7.5025E-05x3 - 1.5415E-02x2 + 1.5098E+00x - 1.6433E+01 60 R2 = 9.9
Washington State - CHEM - 0
Chem 331, Homework #6 (Fundamental Eqns. of Thermo)(Due Mon., Oct. 15th, 2007 at beginning of class) (1) Calculate !Sro and !Gro at 298.15 K for the following reactions. The latter can utilize the !H ro values from homework #4. (a) 4NH3(g) + 6NO(g)
Washington State - CHEM - 331
Chem 331, Homework #6 (Fundamental Eqns. of Thermo)(Due Mon., Oct. 15th, 2007 at beginning of class) (1) Calculate !Sro and !Gro at 298.15 K for the following reactions. The latter can utilize the !H ro values from homework #4. (a) 4NH3(g) + 6NO(g)
Martin Luther - CHEM - 0
Chem 331, Homework #6 (Fundamental Eqns. of Thermo)(Due Mon., Oct. 15th, 2007 at beginning of class) (1) Calculate !Sro and !Gro at 298.15 K for the following reactions. The latter can utilize the !H ro values from homework #4. (a) 4NH3(g) + 6NO(g)
Martin Luther - CHEM - 331
Chem 331, Homework #6 (Fundamental Eqns. of Thermo)(Due Mon., Oct. 15th, 2007 at beginning of class) (1) Calculate !Sro and !Gro at 298.15 K for the following reactions. The latter can utilize the !H ro values from homework #4. (a) 4NH3(g) + 6NO(g)
Washington State - CHEM - 0
Washington State - CHEM - 331
Martin Luther - CHEM - 0
Martin Luther - CHEM - 331
Washington State - CHEM - 0
Chem 331, Homework #7 (Chemical Equilibrium)(Due Mon., Oct. 22nd, 2007 at beginning of class) (1) Calculate the maximum nonexpansion work that can be gained from the combustion of benzene(liquid) and of H2(g) on a per gram basis under standard condi
Washington State - CHEM - 331
Chem 331, Homework #7 (Chemical Equilibrium)(Due Mon., Oct. 22nd, 2007 at beginning of class) (1) Calculate the maximum nonexpansion work that can be gained from the combustion of benzene(liquid) and of H2(g) on a per gram basis under standard condi
Martin Luther - CHEM - 0
Chem 331, Homework #7 (Chemical Equilibrium)(Due Mon., Oct. 22nd, 2007 at beginning of class) (1) Calculate the maximum nonexpansion work that can be gained from the combustion of benzene(liquid) and of H2(g) on a per gram basis under standard condi
Martin Luther - CHEM - 331
Chem 331, Homework #7 (Chemical Equilibrium)(Due Mon., Oct. 22nd, 2007 at beginning of class) (1) Calculate the maximum nonexpansion work that can be gained from the combustion of benzene(liquid) and of H2(g) on a per gram basis under standard condi