| 1 | Teaching the events that led to the birth of quantum physics |
| 2 | Teaching the concept of orbit and spin |
| 3 | Knowing the similarities and differences between classical physics and quantum physics |
| 4 | Understand the principle of duality for particles such as light and electrons |
| 5 | To know de Broglie and Heisenberg relations and to apply them |
| 6 | To provide students with fluent and permanent information about probability and probability density, and the postulates of quantum mechanics. |
| 7 | To understand the wave function, operator concept and its properties, the meaning and importance of the eigenvalue equation. |
| 8 | To convey the meaning of the expectation value to the student by giving an example of its equivalent in classical physics. |
| 9 | Know Dirac notation and its usage. |
| 10 | To know the condition of being Hermitgen and the properties of Hermitgen operators. |
| 11 | Solving the Schrödinger Equation depending on position and time |