. "Calculus"@en . . "6" . "Objectives and Contextualisation\nReach a sufficient level in the calculation of a variable to deal with phenomena and solve the mathematical problems raised in engineering that can be described in these terms.\n\nSupport the parts of the other subjects of the degree that require mastery of real functions of a variable. Achieve a sufficient level in the use of complex numbers and above all in trigonometry.\n\n\nCompetences\nElectronic Engineering for Telecommunication\nCommunication\nDevelop personal attitude.\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.\nWork in a team.\nTelecommunication Systems Engineering\nCommunication\nDevelop personal attitude.\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.\nWork in a team.\nLearning Outcomes\nApply, in the problems that arise in engineering, knowledge about linear algebra, geometry, differential geometry, differential and integral calculus, differential and partial derivative equations, numerical methods, numerical algorithms, statistics and optimisation.\nApply, to the problems that arise in engineering, knowledge of linear algebra, geometry, differential geometry, differential and integral calculus, differential and partial derivative equations, numerical methods, numerical algorithms, statistics and optimisation.\nCommunicate efficiently, orally and in writing, knowledge, results and skills, both professionally and to non-expert audiences.\nDevelop curiosity and creativity.\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.\nResolve the mathematical problems that can arise in engineering.\nWork autonomously.\nWork cooperatively.\nWork in an organised manner.\n\nContent\n1. Complex numbers.\n\n1.1 Trigonometric functions. Addition formulae. Identities. Trigonometric inverse functions.\n\n1.2 Trigonometric equations.\n\n1.3 Complex numbers. Sum, product and the invers. Square roots. Second degree equations.\n\n1.4 Module and argument. Euler's formula.\n\n1.5 Polynomials, roots and factorization. Fundamental theorem of Algebra.\n\n2. Continuity\n\n2.1 Continuity and limits.\n\n2.2. Fundamental theorems of continuous functions. Exponential and logarithmic functions.\n\n3. Differential calculus.\n\n3.1 Derivatives of functions. Algebraic rules of derivation. Chain rule. Derived of the inverse.\n\n3.2 Mean value theorem and consequences. Intervals of monotony.\n\n3.3 Relative and absolute extremes. Optimization.\n\n3.4 Calculation of limits using derivation.\n\n3.5 Taylor's formula.\n\n4. Integral Calculus.\n\n4.1 Notion of Riemann integral.\n\n4.2 Fundamental Theorem of Calculus. Barrow's theorem.\n\n4.3 Calculation of primitives.\n\n4.4 Applications of integrals (part in seminars).\n\n5. Differential equations.\n\n5.1 Notion of differential equation.\n\n5.2 Solving the equations of separate variables.\n\n5.3 First order linear equations.\n\n5.4 Second order linear with constant coefficients.\n\n5.5 Examples of applications of the differential equations." . . "Presential"@en . "TRUE" . . "Calculus"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "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 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .