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### Problem Statement: A compound has a Normal Boiling Point of 95.0 °C and an Enthalpy of Vaporization of 42.0 kJ/mol. What is the Vapor Pressure (in atm) when the compound is at 105.0 °C? (R = 8.314 J/Kmol) **Note:** - The Normal Boiling Point is the temperature at which the vapor pressure of the liquid equals the atmospheric pressure (1 atm). - Enthalpy of Vaporization is the energy required for the phase transition from liquid to gas. - R represents the universal gas constant. Please enter your answer in the provided field below. **Calculation:** To solve for the vapor pressure at 105.0 °C, you may use the Clausius-Clapeyron equation: \[ \ln \left( \dfrac{P_1}{P_2} \right) = \dfrac{\Delta H_{vap}}{R} \left( \dfrac{1}{T_2} - \dfrac{1}{T_1} \right) \] Where: - \( P_1 \) = Vapor pressure at the boiling point (1 atm for normal boiling point) - \( P_2 \) = Vapor pressure at the desired temperature - \( \Delta H_{vap} \) = Enthalpy of Vaporization - \( R \) = Gas constant (8.314 J/K\u00b7mol) - \( T_1 \) and \( T_2 \) are the temperatures in Kelvin Convert temperatures from Celsius to Kelvin: \[ T_1 = 95.0°C + 273.15 \] \[ T_2 = 105.0°C + 273.15 \] ### Diagram: This problem does not have any accompanying graphs or diagrams. However, it instructs the student to apply the Clausius–Clapeyron equation to solve for the vapor pressure at a given temperature. **Answer Field:** - __ (Space for student to input answer)