Lecture 11/1/98, Chapter 6, Section 3-4

Announcements

Changes of State

  1. Heat of fusion (333 J gm-1)
  2. Heat of vaporization 2260 J gm-1)
  3. 10 gram of water from 200 K to 400 K
    1. Cice = 2.1 J gm-1 K-1
    2. [delta]Hfusion = 333 J gm-1
    3. Cwater = 4.2 J gm-1 K-1
    4. [delta]Hvap = 2260 J gm-1
    5. Csteam = 2.0 J gm-1 K-1
      State Start Temp Final Temp Energy
      Ice 200 K 273.15 K 1536 J
      Melt 273.15 273.15 3330 J
      Liquid 273.15 373.15 4200 J
      Boil 373.15 373.15 22600 J
      Steam 373.15 400 537 J
      TOTAL     32203 J

Introduction to Enthalpy

  1. q = heat (Thermal Energy)
  2. w = work (P*V, change in volume, N=kg m sec-2, Pa=kg m-1 sec-2)
  3. [delta] E = q + w (Energy is heat plus work)
  4. IF volume is constant, no work, [delta] E = q
  5. IF pressure is constant, [delta] H = qp

Concept of Change, Altitude Analogy

  1. Arbitrary Reference Point (sea level)
  2. Sign is significant
  3. Independent of Path
  4. Introduce Energy Level Diagram

Calculation of [delta] Hrxn

  1. Misc terms
    1. [delta] H Change in Enthalpy
    2. [delta] H° Change in Enthalpy at standard state
    3. [delta] Hf° Enthalpy of Formation at standard state
    4. Standard State 25C (298K) and 1 bar
  2. [delta] Hrxn = Hfinal - Hinitial
  3. Energy Diagram
  4. State Properties
    1. quantities
    2. pressure
    3. temperature
    4. volume
    5. physical state (ie: solid or liquid)
  5. Hess's Law (sum of steps).
    1. Use energy level diagram C (s) + 2 H2 -> CH4
      Reaction [delta] Hrxn (kJ)
      C (s) + O2 (g) -> CO2 (g) -373.51
      H2 (g) + 1/2O2 (g) -> H2O (l) -285.83
      CH4 (g) + 2 O2 (g) -> CO2 (g) + 2 H2O (l) -890.37


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