| Code |
14939
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| Year |
2
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| Semester |
S2
|
| ECTS Credits |
6
|
| Workload |
TP(60H)
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| Scientific area |
Physics
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|
Entry requirements |
None
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|
Learning outcomes |
The objective of this CU is that students acquire theoretical and practical knowledge of quantum physics. A student completing this CU should be able to identify, interpret and analyze elementary physical situations found in quantum physics. In addition, the student will learn skills necessary to tackle common problems in this subject.
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|
Syllabus |
1) The crisis in classical physics and the origins of quantum physics
2) The Schrödinger equation
- Wave equation and superposition principle
- Probabilistic interpretation of the wavefunction
- Uncertainty principle
3) Quantum mechanics formalism
- Dirac notation
- Observables
- Eigenfunctions and eigenvalues
- Time evolution: Heisenberg and Schrödinger representations
4) Quantum mechanics postulates
5) Some solutions of the Schrödinger equation
- Square potential well
- Step and barrier potentials
- Tunneling effect
- Harmonic oscillator
6) Hydrogen atom
- Schrödinger's equation in 3 dimensions
- Radial equation solutions
- Orbital angular momentum quantization
- Quantum numbers and degeneracy
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Main Bibliography |
Nouredine Zettili - Quantum Mechanics, concepts and applications, 2nd edition (2009) Wiley
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Language |
Portuguese. Tutorial support is available in English.
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