Eskisehir Technical University Info Package Eskisehir Technical University Info Package
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About the Program Educational Objectives Key Learning Outcomes Course Structure Diagram with Credits Field Qualifications Matrix of Course& Program Qualifications Matrix of Program Outcomes&Field Qualifications
  • Faculty of Science
  • Department of Chemistry (30% English)
  • Course Structure Diagram with Credits
  • Physical Chemistry Laboratory II
  • Learning Outcomes
  • Description
  • Learning Outcomes
  • Course's Contribution to Prog.
  • Learning Outcomes & Program Qualifications
  • ECTS Credit Load

  • Will be able to examine the kinetics of certain reactions.
  • Validates the rate law of a second-order reaction using experimental data.
  • Monitors the decomposition of a complex compound via spectrometric methods.
  • Determines the rate of a halogen exchange reaction experimentally.
  • Determines the reaction order and rate constant using experimental data.
  • Will be able to measure surface tension.
  • Measures the surface tension of liquids using the ring method.
  • Analyzes the variation of surface tension with temperature and solution concentration.
  • Will be able to observe the adsorption phenomenon at the solid-liquid interface.
  • Experimentally examines the adsorption of a component in an aqueous solution onto a solid.
  • Constructs Langmuir and Freundlich adsorption isotherms.
  • Will be able to explain colligative properties experimentally.
  • Observes the boiling point elevation and freezing point depression behaviors of solutions.
  • Calculates the molar mass of the solute using experimental data.
  • Will be able to determine the conductivity coefficient of electrolytes.
  • Examines the variation of molar conductivities of strong and weak electrolytes with concentration.
  • Determines the limiting molar conductivity and the degree of ionization by applying Kohlrausch’s law.
  • Will be able to perform the electrolysis of water.
  • Experimentally examines the electrolysis of water.
  • Calculates the Faraday constant experimentally.
  • Will be able to explain Faraday's laws through the electroplating method.
  • Determines the mass of copper deposited on the electrode by electrolyzing copper (II) sulfate.
  • Applies Faraday’s laws.
  • Will be able to explain concentration cells.
  • Sets up concentration cells consisting of half-cells with different ion concentrations.
  • Compares measured potential values with theoretical values calculated from the Nernst equation.
  • Examines the effect of a precipitation reaction on the concentration cell.
  • Will be able to investigate the titration of strong and weak acids via the potentiometric method.
  • Performs the titration of strong acids, weak acids, and acid mixtures using a pH meter.
  • Determines the equivalence points from titration curves.
  • Experimentally determines the pKa values of weak acids.

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