Loyola College B.Sc. Chemistry Nov 2003 Physical Chemisrty – II Question Paper PDF Download

LOYOLA COLLEGE (AUTONOMOUS), CHENNAI –600 034

B.Sc., DEGREE EXAMINATION – CHEMISTRY

FIFTH SEMESTER – NOVEMBER 2003

CH – 5500/CHE508 –  PHYSICAL CHEMISRTY – II

03-11-2003                                                                                                     Max:100 marks

1.00 – 4.00

 

PART – A                                           (10X2=20 marks)

Answer ALL questions.

 

  1. Write the electrode reaction occurring in a saturated calomel electrode when it serves as cathode.
  2. NaCl cannot be used in salt bridge preparation. Why?
  3. Calculate Ecell for Cu | Cu2+ (10-2‑M) || Ag+ (10-3M)| Ag at 298 K. Eo red for Cu2+ | Cu is 0.34V, Ag+ | Ag 0.8V.
  4. Write the electrode reactions occurring in a lead storage battery when it serves as a source of current.
  5. Define molar conductance of an electrolytic solution.
  6. 30% of a zero order reaction is complete in 100 min. Calculate i) rate constant ii) half life.
  7. Mention the steps involved in a thermal chain reaction with one example.
  8. Predict the effect of ionic strength on the rate constant of the following reaction and account for your answer.

S2O82- + 2I   2SO42- + I2

  1. Adsorption if spontaneous must be exothermic.
  2. Why is quantum yield for H2 + Cl2   2 HCl very high?

 

PART – B                                           (8X5=40 marks)

Answer any EIGHT questions.

 

  1. Explain the construction and working of Weston saturated standard cell. Write the electrode reactions involved.
  2. Eo cell for Pt | H2 HCl (aq) | HgCl­2(s) | H is 0.2699V at 293 K and 0.2669 V at 303 K. Evaluate the thermodynamic parameters DGo, DHo and DSo at 298 K.  (Assume two electron transfer)
  3. How is pH of a solution determined using quinhdrone electrode?
  4. Eo red for Ag-AgCl electrode is 0.22V and for Ag+ | Ag is 0.8 V at 298 K. Calculate the solubility product of AgCl and the solubility of it in water in g/l.  (Molecular mass of AgCl : 143.5).
  5. How is Ka of a weak acid determined experimentally using conductance measurements?
  6. For a reaction with an activation energy of 50 kJ/mol the temperature is increased from 25oC to 37o Calculate the ratio of the rate constants (R = 8.314 JK-1 mol-1).
  7. The following mechanism is proposed for the decomposition of ozone in the atmosphere.
  8. 1

03            O2 + O

k2

  1. ii) O + O3 k3 O2 + O2    (slow step)

 

Derive an expression for the rate of decomposition of O3 using steady state

approximation with O treated as the intermediate.  Show that when the second step is

slow, the rate is second order in O3 and  first order in  O2.

  1. The pre-exponential factor for a bimolecular gaseous reaction at 300oC is 7.4 X 1010 l mol-1 s-1. Calculate DS¹.
  2. Differentiate physisorption form Chemisorption (five points).
  3. Explain a) Photosensitization b) Parallel reaction with one example for each.
  4. The quantum yield is 2 for the photolysis of HI(g) to H2 + I2 by light of wavelength 253.7 nm. Calculate the number of moles of HI that will be decomposed if 300 J of energy of this wavelength is absorbed.
  5. Explain Langumir – Hinshelwood mechanism with one example.

 

PART – C                                           (4X10=40 marks)

Answer any FOUR questions.

 

  1. a) Derive Nernst equation for a cell reaction and hence deduce an expression relating equilibrium constant and Eo         (4+2)
  2. b) Explain the significance of electromotive series. (4)
  3. Derive an expression for E cell for a concentration cell with transference and hence deduce an expression for liquid junction potential.          (7+3)
  4. a) Explain the principle of polarography. (5)
  5. b) How is transport number of an ion determined experimentally? (5)
  6. a) Account for the variation of equivalent conductance with concentration for i) strong electrolyte ii) weak electrolyte. (5)
  7. b) Derive an expression for rate constant of a second order reaction of the type 2A                                                                                                       (5)
  8. a) Explain any two methods of determining order of a reaction. (4)
  9. b) Derive Langumir adsorption isotherm equation and apply it to a moderately adsorbed system.         (5+1)
  10. a) Compare collision theory with ARRT (5)
  11. b) Explain the principle of flash photolysis. (5)
  12. Explain the kinetics of enzyme catalysed reaction involving a single substrate. How are the kinetic parameters for the enzymatic reaction evaluated?                                         (10)

 

 

 

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Loyola College B.Sc. Chemistry Nov 2003 Physical Chemisrty – I Question Paper PDF Download

LOYOLA COLLEGE (AUTONOMOUS), CHENNAI –600 034

B.Sc., DEGREE EXAMINATION – CHEMISTRY

THIRD SEMESTER – NOVEMBER 2003

CH – 3500/CHE504 –   PHYSICAL CHEMISRTY – I

04-11-2003                                                                                                     Max:100 marks

9.00 – 12.00

 

PART – A                                           (10X2=20 marks)

Answer ALL questions.

 

  1. Define Molar heat capacity at constant volume.
  2. State the third law of thermodynamics.
  3. Heat supplied to a Cornot engine is 1897.86 kJ. How much useful work can be done by the engine which works between 0oC and 100oC?
  4. Mention the criteria of reversibility interms of S and G.
  5. For the reaction C(graphite) + 1/2 O2 (g) CO (g) at 298k and at 1 atm pressure, DH = 110.60 kJ.  Calculate D
  6. Define Ebullioscopic constant of a liquid?
  7. What are isotonic solutions? Give an example.
  8. Mention the importance of critical Solution Temperature.
  9. Express the conditions for the validity of the distribution law.
  10. Determine the number of degrees of freedom for the following equilibrium at 1 atm premure.

Water (liquid)  water (vapour).

 

 

PART – B                                           (8X5=40 marks)

Answer EIGHT questions.

 

  1. Show that for an ideal gas
  2. a) (= 0.    b)   ( = 0.
  3. Internal energy and enthalpy remain constant in the isothermal expansion of an ideal gas – Explain.
  4. For the reaction N2 (g) + 3H2 (g) 2 NH3(g).  Kp is 1.64 x 10-4 at 673 k.  Calculate DG when the partial pressure of N2, H2 and NH3 are 10 atm, 30 atm and 3 atm respectively. Is the reaction spontaneous?
  5. Discuss the effect of temperature on enthalpy change of a reaction.
  6. Obtain an expression for the equilibrium constant thermodynamically.
  7. Explain with an example the positive deviation from Raoult’s law.
  8. How will you determine the molecular weight by Beckmann’s method.
  9. Highlight the salient features of the phase diagram of water system.
  10. Derive thermodynamically the distribution law.
  11. Draw and explain the phase diagram of a system having both UCST and LCST.
  12. An immisible mixture of water and quinoline boils at 98.9oC under a pressure of 740 torr. The distillate contains 77.9 g of quinoline and 1 kg of water.  At the given boiling point the vapour pressure of quinoline is 7.96 torr. Calculate the molar mass of quinoline?
  13. Derive any two Maxwell’s relationships.

 

PART – C                                           (4X10=40 marks)

Answer FOUR questions.

 

  1. Obtain expressions for w, Du and DH for the reversible isothermal expansion of real gas.
  2. a) How is Joule-Thomson coefficient calculated? Mention the importance of inversion

temperature.                                                                                                                  (7)

  1. b) Calculate the ratio of Kp to Kc at 27oC for the following equilibrium. (R = 0.082 lit

atm K-1 mol-1)

COCl2 (g) CO(g) + Cl2(g).                                                                              (3)

  1. a) Discuss the application of Lechatelier’s principle to the formation of ammonia. (6)
  2. b) Two moles of an ideal gas undergo isothermal reversible expansion from 15 litres to 30

litres at 300 K. Calculate the work done and change in entropy.                                (4)

  1. a) Draw the vapour pressure – composition and boiling point – composition curves of

completely miscible binary solutions.                                                                          (5)

  1. b) Explain the principle of steam distillation. (5)
  2. Derive phase rule equation and explain the terms involved in it with one example.
  3. a) How will you determine osmotic pressure of a solution by Berkely – Hartley method? (5)
  4. b) A 0.5% aqueous solution of kCl was found to freeze at -0.24o Calculate the van’t

Hoff factor and the degree of dissociation of the solute at this concentration (kf = 1.86 K

kg mol-1).                                                                                                                        (5)

 

 

 

 

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