1 / 15

Chemical Equilibrium

Chemical Equilibrium. Chapter 17. Chemical Equilibrium. Chemical Equilibrium is a state of dynamic balance where the rate of the forward reaction is equal to the rate of the reverse reaction. Le Chatelier’s Principle.

willow
Download Presentation

Chemical Equilibrium

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chemical Equilibrium Chapter 17

  2. Chemical Equilibrium • Chemical Equilibrium is a state of dynamic balance where the rate of the forward reaction is equal to the rate of the reverse reaction.

  3. Le Chatelier’s Principle • When a system in equilibrium is subjected to a stress, the system readjusts to relieve the effect of the stress. • Stresses include Pressure, Temperature, Concentration of one or more reactants. • Leaving Cert 2008 Q7, 2007Q10a, 2006 Q11b,2005 Q9 2004 Q9(C) 2003 Q11 2002 Q10(C)

  4. Experiments to investigate Le Chatelier’s principle using 3 named experiments. Example 1 Cobalt (II) Chloride, conc HCL. CoCl42- + 6H2O Co(H2O)62+ + 4Cl- BlueRed Addition of HCl - Addition of Water - Addition of Heat Exothermic CoCl42- + 6H2O Co(H2O)62+ + 4Cl- Increase in temperature- goes from red to blue therefore the reaction is ? Red to Blue Goes Blue to Red Exothermic

  5. Example 2 Sodium Dichromate Cr2O72– + H2O 2CrO42– + 2H+ OrangeYellow Addition of an alkali(NaOH)- Why? Addition of an acid (HCL)- Why? Orange changes to Yellow Yellow to Orange

  6. Example 3

  7. Industrial Applications of Le Chatellier Manufacture of Ammonia(NH3) by the Haber Process N2 + 3H2 --> 2NH3 According to Le Chatelier a high pressure and low temperature are the best conditions to give a maximum yield of ammonia. In practice the reaction is carried out at a pressure of 200 atmospheres and a temperature of 500* C with an Iron catalyst.

  8. HABER PROCESS

  9. HABER PROCESS N2(g) + 3H2(g) 2NH3(g) : DH = - 92 kJ mol-1 Conditions Pressure 20000 kPa (200 atmospheres) Temperature 380-450°C Catalyst iron Equilibriumtheory favours low temperature exothermic reaction - higher yield at lower temperature high pressure decrease in number of gaseous molecules Kinetictheory favours high temperature greater average energy + more frequent collisions high pressure more frequent collisions for gaseous molecules catalyst lower activation energy Compromiseconditions Which is better? A low yield in a shorter time or a high yield over a longer period. The conditions used are a compromise with the catalyst enabling the rate to be kept up, even at a lower temperature.

  10. IMPORTANT USES OF AMMONIA AND ITS COMPOUNDS MAKING FERTILISERS80% of the ammonia produced goes to make fertilisers such as ammonium nitrate (NITRAM) and ammonium sulphate NH3 + HNO3 ——> NH4NO3 2NH3 + H2SO4 ——> (NH4)2SO4 MAKING NITRIC ACIDammonia can be oxidised to nitric acid nitric acid is used to manufacture... fertilisers (ammonium nitrate) explosives (TNT) polyamide polymers (NYLON)

  11. Example 2 Manufacture of Sulfuric Acid by the Contact process. Exothermic 2SO2 + O2 2SO3 What Conditions give the best Yield? According to Le Chatelier a high pressure and low temperature are the best conditions to give a maximum yield of sulphur trioxide. In practice the reaction is carried out at a pressure of 1 atmospheres and a temperature of 45O* C with a Vanadium Pentoxide (V2O5)catalyst.

  12. The Equilibrium constant(Kc) Provided the Temperature remains constant there is a relationship between the concentration of the reactants and products in a equilibrium mixture. This constant is based on the law of Chemical Equilibrium. If Therefore Only a change in temperature changes the value of Kc

  13. Example Write the equilibrium constant expression (Kc) for the following equation. Answer: Calculations involving the law of Chemical Equilibrium (See BOOK pages 242-245) Two types (a) Calculate KC (2004 Q 9) (b) Given KC calculate the equilibriumconcentrations (Revised sample paper Feb 2002 Q.9) Leaving Cert 2005 Q9(C) 2004 Q9(C) 2003 Q11 2002 Q10(C)

  14. Question 7 2010 paper Find KC

  15. Given KC find the equilibrium concentrations. 2003 Q11(a)

More Related