Using the Clapeyron equation ??/?? = Δ????/Δ????, calculate the change in the boiling temperature of water with applied pressure (Δvap H = 109 J K-1 mol-1 ). Use this observation to justify the operation of a pressure cooker.
Using the Clapeyron equation ??/?? = Δ????/Δ????, calculate the change in the boiling temperature of water...
Use the Clausius-Clapeyron equation to calculate the temperature (°C) at which pure water would boil at a pressure of 400.0 torr. Temperature = ___°C the vapor pressure of h20 at this temperature is _____ torr.
Use the Clausius-Clapeyron equation to predict the boiling point of water at 8.4 atm. The boiling point of water at 1.00 atm is 100 °C, the heat of vaporization of water is ΔHvap=40.660 kJ/mol. Enter your result, without the unit, in °C, to a precision of 0.1 °C
Use the Clausius-Clapeyron equation to predict the boiling point of water at 8.4 atm. The boiling point of water at 1.00 atm is 100 °C, the heat of vaporization of water is ΔHvap=40.660 kJ/mol. Enter your result, without the unit, in °C, to a precision of 0.1 °C.
usius-Clapeyron equation tells us the variation of vapor pressure (p) with temperature (T) as ap dT RTr The vapour pressure of acetone, CH.0, is 30.6 kPa at 298 K. The norma boiling of acetone is at 329 K. Calculate the average enthalpy of vaporiz on of acetone over this temperature range (a) 34.8 kJ mol (b) 28.5 kJ mol c) 213 1 mol 31.6 moll
Suppose the boiling point of pure water at high altitude is 88.46 °C. Use the Clausius-Clapeyron equation to determine the atmospheric pressure (atm) at this high altitude. The normal boiling point of water is 100.0 °C at 1 atm, and its heat of vaporization is 40.7 kJ/mol.
Consider the data in the table. Compound Melting point (°C) Δ H fus (kJ/mol) Boiling point (°C) Δ H vap (kJ/mol) HF −83.11 4.577 19.54 25.18 HCl −114.3 1.991 −84.9 17.53 HBr −86.96 2.406 −67.0 19.27 HI −50.91 2.871 −35.38 21.16 Using the data in the table, calculate Δ S fus and Δ S vap for HBr . Δ S fus = J / ( K ⋅ mol) Δ S v a p = J / ( K ⋅ mol)...
Determine the AHvap in kJ/mol using Clausius-Clapeyron equation given that the boiling at 1.5 atm of a substance is 400 K, and its normal boiling point is 348 K. (Only enter numericanswer to its first decimal place, do not enter unit kJ/mol) P2 In P1 -AH/1 R T2 "G. =)
2. The Clausius-Claperyron equation may be integrated assuming a temperature independent enthalpy: ſ“ din p = 6 REJAT In P2 AH 1 11 RTTI Use the Clausius-Clapeyron equation to determine the boiling point of water on top of Mt. Whitney given the following information. Avap Hm(H2O) = 40.7 kJ/mol, p(Mt. Whitney) = 5.88 x 10' Pa, and Tvap = 373 K in San Rafael at a pressure of 1.02 x 10 Pa. In the following questions, we will estimate the...
The normal molar vaporization enthalpy (∆H_Vap ^ °) of methanol is worth 37.4 kJmol ^ (- 1), and its normal molar vaporization entropy (∆S_Vap ^ °) 110.9 JK ^ (- 1) mol ^ (- 1). Calculate: The vapor pressure of methanol, at 298 K (R = 8.3144 J K -1 mol -1). The approximate normal boiling point. The boiling point for an external pressure of 0.1 atm. Applying the Clausius-Clapeyron equation, estimate the cooking temperature in a pressure cooker whose...
I know that I have to use the clausius clapeyron equation, but I think I am getting lost in the algebra. So please include the full algebra. Thanks! Here are the answers: 9. Consider the following water and planetary data: Earth Surface temperature: 20 °C Earth surface pressure: 1 atm Boiling point of water on Earth: 100 °C Mars surface temperature: -50 °C Mars surface pressure: 0.015 atm Freezing point of water on Mars: 0 °C a. What is the...