MATHEMATICAL ANALYSIS FOR APPLICATIONS
(objectives)
Giving further knowledge and tools of Calculus, required for an adequate understanding of mathematical methods and models relevant for Engineering.
|
Code
|
20801967 |
Language
|
ITA |
Type of certificate
|
Profit certificate
|
Credits
|
6
|
Scientific Disciplinary Sector Code
|
MAT/05
|
Contact Hours
|
48
|
Type of Activity
|
Basic compulsory activities
|
Teacher
|
GENTILE GUIDO
(syllabus)
Linear first-order differential equations. General first order differential equations. Cauchy problem: local existence and uniqueness. Separation of variables. Systems of first-order equations: linearly independent solutions and Wronskian matrix. Variation of constants. Differential equations with constant coefficients and characteristic polynomial. Matrix exponential and computation for diagonalizable matrices. Some remarkable differential equations: Euler equation and Bernouilli equation.
Norm and distance in R^n. Functions of several variables. Continuous functions and Weierstrass theorem. Partial derivatives, directional derivatives and gradient. Functions of class C^1 and C^2. Higher derivatives, Hessian matrix and Schwarz theorem. Differentiation of composed functions. Taylor expansion. Local maxima and minima. Method of Lagrange multipliers to compute local maxima and minima.
Riemann integration and Peano-Jordan measure. Integration of continuous functions, reduction formulae and iterated integrals; area and volume. Change of variables in integrals and Jacobian matrix: polar, cylindrical and spherical coordinates. Gaussian integral.
Curves in R^n: parametrized and equivalent curves; length of a curve; curve integrals of scalar functions. Work and curve integrals of vector fields. Smooth surfaces in R^3: area of a surface and integrals on surfaces.
(reference books)
Teoria: Bertsch, Dal Passo, Giacomelli, Analisi Matematica , McGraw Hill, II edizione Esercizi: Marcellini, Sbordone, Esercitazioni di Analisi Matematica Due (vol. I e vol. II), Zanichelli ed.
|
Dates of beginning and end of teaching activities
|
From 19/09/2022 to 23/12/2022 |
Delivery mode
|
Traditional
|
Attendance
|
not mandatory
|
Evaluation methods
|
Written test
Oral exam
|
Teacher
|
CORSI LIVIA
(syllabus)
Linear first-order differential equations. General first order differential equations. Cauchy problem: local existence and uniqueness. Separation of variables. Systems of first-order equations: linearly independent solutions and Wronskian matrix. Variation of constants. Differential equations with constant coefficients and characteristic polynomial. Matrix exponential and computation for diagonalizable matrices. Some remarkable differential equations: Euler equation and Bernouilli equation.
Norm and distance in R^n. Functions of several variables. Continuous functions and Weierstrass theorem. Partial derivatives, directional derivatives and gradient. Functions of class C^1 and C^2. Higher derivatives, Hessian matrix and Schwarz theorem. Differentiation of composed functions. Taylor expansion. Local maxima and minima. Method of Lagrange multipliers to compute local maxima and minima.
Riemann integration and Peano-Jordan measure. Integration of continuous functions, reduction formulae and iterated integrals; area and volume. Change of variables in integrals and Jacobian matrix: polar, cylindrical and spherical coordinates. Gaussian integral.
Curves in R^n: parametrized and equivalent curves; length of a curve; curve integrals of scalar functions. Work and curve integrals of vector fields. Smooth surfaces in R^3: area of a surface and integrals on surfaces.
(reference books)
Teoria: Bertsch, Dal Passo, Giacomelli, Analisi Matematica , McGraw Hill, II edizione Esercizi: Marcellini, Sbordone, Esercitazioni di Analisi Matematica Due (vol. I e vol. II), Zanichelli ed.
|
Dates of beginning and end of teaching activities
|
From 19/09/2022 to 23/12/2022 |
Delivery mode
|
Traditional
|
Attendance
|
not mandatory
|
Evaluation methods
|
Written test
Oral exam
|
|
|