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The Smell of Fresh-Cut Pine Is Due in Part to a Cyclic

Question 24

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The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of <font face= symbol ></font>4,936.37 K. What is the enthalpy of vaporization of pinene? A) (<font face= symbol ></font> <font face= symbol ></font>397 kJ/mol) B) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) C) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) D) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) E) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) 4,936.37 K. What is the enthalpy of vaporization of pinene?


A) ( The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of <font face= symbol ></font>4,936.37 K. What is the enthalpy of vaporization of pinene? A) (<font face= symbol ></font> <font face= symbol ></font>397 kJ/mol) B) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) C) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) D) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) E) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) 397 kJ/mol)
B) ( The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of <font face= symbol ></font>4,936.37 K. What is the enthalpy of vaporization of pinene? A) (<font face= symbol ></font> <font face= symbol ></font>397 kJ/mol) B) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) C) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) D) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) E) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) 39.7 kJ/mol)
C) ( The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of <font face= symbol ></font>4,936.37 K. What is the enthalpy of vaporization of pinene? A) (<font face= symbol ></font> <font face= symbol ></font>397 kJ/mol) B) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) C) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) D) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) E) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) 39.7 kJ/mol)
D) ( The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of <font face= symbol ></font>4,936.37 K. What is the enthalpy of vaporization of pinene? A) (<font face= symbol ></font> <font face= symbol ></font>397 kJ/mol) B) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) C) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) D) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) E) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) 41.0 kJ/mol)
E) ( The smell of fresh-cut pine is due in part to a cyclic alkene called pinene. A graph of the natural logarithm of the vapor pressure of pinene vs. 1/temperature produces a straight line with a slope of <font face= symbol ></font>4,936.37 K. What is the enthalpy of vaporization of pinene? A) (<font face= symbol ></font> <font face= symbol ></font>397 kJ/mol) B) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) C) (<font face= symbol ></font> <font face= symbol ></font>39.7 kJ/mol) D) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) E) (<font face= symbol ></font> <font face= symbol ></font>41.0 kJ/mol) 41.0 kJ/mol)

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