. "Other Physics Kas"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Foundations of physics"@en . . "9" . "Objectives and Contextualisation\nA basic knowledge of the electromagnetic field. From electrostatics and magnetostatics (in vacuum and in materials) to Maxwell's equations, going through electromagnetic induction.\n\nSeveral solutions of Maxwell's equations are given, including electromagnetic waves.\n\nBrief introduction to wave movement, mechanics and thermodynamics\n\n\nCompetences\nElectronic Engineering for Telecommunication\nDevelop personal work habits.\nDevelop thinking habits.\nLearn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations.\nResolve problems with initiative and creativity. Make decisions. Communicate and transmit knowledge, skills and abilities, in awareness of the ethical and professional responsibilities involved in a telecommunications engineer's work.\nTelecommunication Systems Engineering\nDevelop personal work habits.\nDevelop thinking habits.\nLearn new methods and technologies, building on basic technological knowledge, to be able to adapt to new situations.\nResolve problems with initiative and creativity. Make decisions. Communicate and transmit knowledge, skills and abilities, in awareness of the ethical and professional responsibilities involved in a telecommunications engineer's work.\nLearning Outcomes\nApply the basic concepts on the general laws of mechanics, thermodynamics, and electromagnetic fields and waves to resolve engineering problems.\nDefine the basic concepts on the general laws of mechanics, thermodynamics, and electromagnetic fields and waves.\nDevelop independent learning strategies.\nDevelop scientific thinking.\nDevelop the capacity for analysis and synthesis.\nManage available time and resources.\nManage available time and resources. Work in an organised manner.\nPrevent and solve problems.\nWork autonomously.\n\nContent\n1. Vector analysis\nVector Algebra.- Gradient.- Divergence.- Divergence theorem.- Rotational.- Stokes' theorem.-\nHelmholtz's theorem.- Other coordinate systems.\n\n2. Electrostatics\nElectric charge and Coulomb's law.- Electric field.- Electric field equations.- Electric potential.-\nPoisson's and Laplace's equations.- Conductors.- Energy of a charge distribution.\n\n3. Magnetostatics\nElectric current and Ohm's law.- Continuity equation.- Magnetic induction: Biot and Savart law.- Force between\ncircuits.- Lorentz force.- Rotational of B: Ampère's theorem.- Divergence of B.- Potential vector.\n\n4. Dielectric media\nMultipolar development.- Electrical dipole and magnetic dipole.- Field created by a dielectric.- Vector\nDisplacement D.- Dielectric constant.- Field created by a magnetic material.- Magnetic intensity H.- Types\nof magnetic materials.\n\n5. Slowly variable fields\nElectromotive force.- Law of Faraday.- Applications.- Differential expression.- Mutual inductance and\nselfinductance.- Transformer.- Magnetic energy of several circuits.- Energy in function of the field.\n\n6. Electromagnetic fields\nDisplacement current.- Maxwell equations.- Boundary conditions.- Scalar and potential vector.- Poynting's theorem.- Electromagnetic radiation.\n\n7. Waves\nProperties of waves.- Wave equation.- Superposition of waves.- Electromagnetic waves in a dielectric.-\nElectromagnetic waves in a conductor.- Guided waves.- Electromagnetic spectrum.\n\n8. Fundamentals of Mechanics and Thermodynamics\nNewton's Laws.- Kinetic and potential energy.- Rotation of a rigid body.- Harmonic oscillator.- Temperature and\nheat.- Heat transfer.-Thermal properties of matter." . . "Presential"@en . "TRUE" . . "Bachelor in Telecommunication Systems Engineering"@en . . "https://www.uab.cat/web/estudiar/ehea-degrees/general-information/computer-engineering-telecommunication-systems-engineering-1216708259085.html?param1=1345654047869" . "327"^^ . "Presential"@en . "The fast-paced technological evolution and advances in globalisation have made the information and communication technologies (ICTs) present in almost all of our personal and also professional activities. The union of concepts such as information technology, internet and telecommunications is a reality demanding the knowledge of professionals capable of working in all three areas. For this reason, the UAB offers a double degree in which students can receive integrated training leading to two diplomas in five years.\n\nStudents of the double degree in Computer Engineering (Specialisation in Information Technologies) + Telecommunication Systems Engineering will receive training in both the subjects belonging to each degree and interdisciplinary training to help successfully face the professional challenges of the ICTs and acquire a highly valued versatility with which to stand out from other professionals in the sector.\n\nThe close relation with advanced technological and research centres of both local and international prestige, and with leading companies from the ICT sector, facilitates student participation in high quality work placements and a successful entry into the labour market."@en . . . . "5"@en . "FALSE" . . . "Bachelor"@en . "Both" . "1199.90" . "Euro"@en . "Not informative" . "Recommended" . "no data"@en . "no data" . "FALSE" . "Midstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .