FUNDAMENTALS OF MATHEMATICS 1
(objectives)
To provide the conceptual and methodological tools for finding information transmitted by the formalized and deductive language of mathematics.
To provide the fundamentals of mathematical analysis and plane geometry oriented towards the understanding of the physical-mathematical models.
Course topics are: the differential and integral calculus in one variable; its concepts, tools and modeling instances; linear algebra analyzed from a geometrical point of view; abstract theory and its geometric interpretation in two and three dimensions.
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Code
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21001991 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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8
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Scientific Disciplinary Sector Code
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MAT/07
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Contact Hours
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100
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Type of Activity
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Basic compulsory activities
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Group: CANALE I
Teacher
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FALCOLINI CORRADO
(syllabus)
Quantifiers. Numbers: natural, integers, rational and real. Axioms of real numbers. Cartesian coordinates in the plane. Points and vectors. Distance: formal definition. Absolute value. Density of Q in R. Linear algebra: vector sum, scalar product. Matrices. Matrix operations of sum and product, determinant, rank of a matrix. Matrix representation of linear transformations. Geometric meaning of the determinant. Rotation matrices and omotethy. Parametric equation of the line. Orthogonality conditions. Introduction to real functions. Graphs. Working with graphics, absolute value of a graph. Exponential, logarithm of a function for which you know the plot. Accumulation points. Limits. Operations with limits. Comparison theorem. Continuous functions. Theorems on continuous functions. Asymptotes. Derivatives: definition, geometric meaning. Operations: sum, product, quotient, scalar product. Main rules of derivation. Equation of the tangent line at a point to the graph. Derivative of a composite function and inverse functions. Stationary points. Fermat's theorem. Theorems of Rolle and Lagrange. Monotony and sign of the first derivative. Second derivatives, concavity, inflections. Plotting graphs of functions. Theorems of Cauchy and De l'Hopital. Word problems. Taylor polynomial. Formula of the rest of Lagrange. Hyperbolic functions, conic sections as geometric loci. Classification of conic sections. Introduction to the problem of calculating the area of a flat region. The fundamental theorem of calculus, definite integrals. The theorem of the average. Integration by parts and substitution. Integration of rational functions. Definition of parametric curve. From parametric to cartesian equations and viceversa. Examples: circumference cycloid, conical. Vector and unit vector tangent vector and the unit vector normal. Length of a curve. Curvature
(reference books)
G.B. THOMAS, R.L. FINNEY ELEMENTI DI ANALISI MATEMATICA E GEOMETRIA ANALITICA ED. ZANICHELLI
Bramanti, Pagani, Salsa “Analisi Matematica 1. Con elementi di geometria e algebra lineare”, Zanichelli
Naldi, Pareschi, Aletti “calcolo differenziale e algebra lineare”, Ed. Mc Graw-Hill
ROBERT A. ADAMS CALCOLO DIFFERENZIALE IED. CEA (CASA EDITRICE AMBROSIANA)
COURANT, ROBBINS "CHE COS' È LA MATEMATICA?" ED. BORINGHIERI
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Dates of beginning and end of teaching activities
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From 01/10/2018 to 28/02/2019 |
Delivery mode
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Traditional
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Attendance
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Mandatory
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Evaluation methods
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Written test
Oral exam
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Group: CANALE II
Teacher
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MAGRONE PAOLA
(syllabus)
Quantifiers. Numbers: natural, integers, rational and real. Axioms of real numbers. Cartesian coordinates in the plane. Points and vectors. Distance: formal definition. Absolute value. Density of Q in R. Linear algebra: vector sum, scalar product. Matrices. Matrix operations of sum and product, determinant, rank of a matrix. Matrix representation of linear transformations. Geometric meaning of the determinant. Rotation matrices and omotethy. Parametric equation of the line. Orthogonality conditions.
Introduction to real functions. Graphs. Working with graphics, absolute value of a graph. Exponential, logarithm of a function for which you know the plot. Accumulation points. Limits. Operations with limits. Comparison theorem. Continuous functions. Theorems on continuous functions.
Asymptotes. Derivatives: definition, geometric meaning. Operations: sum, product, quotient, scalar product. Main rules of derivation. Equation of the tangent line at a point to the graph.
Derivative of a composite function and inverse functions. Stationary points. Fermat's theorem. Theorems of Rolle and Lagrange. Monotony and sign of the first derivative.
Second derivatives, concavity, inflections. Plotting graphs of functions. Theorems of Cauchy and De l'Hopital. Word problems.
Taylor polynomial. Formula of the rest of Lagrange. Hyperbolic functions, conic sections as geometric loci. Classification of conic sections.
Introduction to the problem of calculating the area of a flat region. The fundamental theorem of calculus, definite integrals. The theorem of the average. Integration by parts and substitution. Integration of rational functions. Definition of parametric curve. From parametric to cartesian equations and viceversa. Examples: circumference cycloid, conical. Vector and unit vector tangent vector and the unit vector normal. Length of a curve. Curvature
(reference books)
ROBERT A. ADAMS CALCOLO DIFFERENZIALE I ED. CEA (CASA EDITRICE AMBROSIANA) G.B. THOMAS, R.L. FINNEY ELEMENTI DI ANALISI MATEMATICA E GEOMETRIA ANALITICA ED. ZANICHELLI Bramanti, Pagani, Salsa “Analisi Matematica 1. Con elementi di geometria e algebra lineare”, Zanichelli Marsden, Jerrold E. and Weinstein, Alan J. (1985) Calculus I. Springer-Verlag , New York.
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Dates of beginning and end of teaching activities
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From 01/10/2018 to 28/02/2019 |
Delivery mode
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Traditional
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Attendance
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Mandatory
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Evaluation methods
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Written test
Oral exam
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