| ÖÇ1 | Can establish the connection between statistical mechanics and classical thermodynamics. |
| ÖÇ1 | Can interpret thermal equilibrium conditions and energy distributions. |
| ÖÇ2 | Can explain probability concepts and the microstate-macrostate relationship. |
| ÖÇ2 | Can calculate specific heat using Einstein and Debye models in solid-state physics. |
| ÖÇ3 | Can apply statistical physics methods to real-world problems and new materials research. |
| ÖÇ3 | Has the ability to define, formulate, and solve problems. |
| ÖÇ4 | Can define and apply microcanonical and canonical ensembles. |
| ÖÇ4 | Can analyze and explain natural phenomena. |
| ÖÇ5 | Can develop the ability to interdisciplinary relate and apply knowledge. |
| ÖÇ5 | Can mathematically express Bose-Einstein, Fermi-Dirac, and Maxwell-Boltzmann statistics and apply them to physical systems. |