Expected results from this subject |
Training and Learning Results |
Describe *unificadamente the electromagnetic field by means of the laws of Maxwell. Apply the basic conditions of border in the empty or in presence of material means. |
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C3
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D1 D12 D14
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Derive the equation of propagation of an electromagnetic wave, characterised through his main characteristic. Relate this concept with the electromagnetic spectrum. |
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C3
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D12 D14
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Explain the empirical phenomena related with the interaction radiation
matter no explained by the Classical Theory, and the solutions proposed for
his resolution (duality wave corpuscle, *cuantización of the radiation). |
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C3
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D12 D14 D15
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Bill the postulates of the Quantum Mechanics and his consequences in the reformulation of the microscopic theory of the Classical Physics. |
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C3
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D1 D12 D14 D15
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Explain the foundations of the theory of mathematical operators, including the concepts of function and own value, spectrum, *linealidad and *hermiticidad, space of functions, etc. |
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C3
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D1 D9 D12 D14
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Write the fundamental operators of the Quantum Mechanics (position, linear and angular moment, Hamiltonian of simple systems). |
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C3 C19
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D1 D9 D12 D14
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Apply the previous concepts to the mechanical study-quantum of simple systems, like a particle subjected to a potential of *pozo square infinite, or to a harmonic potential, resolving the equation of Schrödinger independent of the time. |
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C3 C19
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D1 D3 D6 D8 D12 D13 D14
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Calculate the functions and own values of the for the moment angular operator. |
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C3 C19
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D6 D12 D14
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Resolve the equations of wave of the atom of hydrogen, calculating his orbital. |
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C3 C19
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D6 D8 D12 D14
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Resolve the equation of Schrödinger for atoms *polielectrónicos by means of approximate methods. |
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C3 C19 C20
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D1 D5 D6 D9 D12 D13 D14
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Explain of simple form the transitions between states and the spectrums of broadcast or resultant absorption. |
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C3 C19 C20 C22 C23
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D1 D6 D8 D9 D12 D14 D15
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Bill the laws of the Statistical mechanics that govern the behaviour of systems of particles, *particularizado to the statistics of Maxwell *Boltzmann. Derive the function of partition of a system and know in detail his physical meaning. |
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C14 C20 C22 C23
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D1 D4 D5 D6 D7 D8 D12 D13
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Apply the statistics of Maxwell *Boltzmann to the case of the ideal gases monkey and polyatomic to estimate thermodynamic properties from microscopic properties like mass, molecular geometry and frequencies of vibration. |
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C14 C19
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D1 D4 D5 D6 D7 D8 D12 D13
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