Follow-up Course in Technical Mathematics
| Rakennetyyppi: | Opintojakso |
|---|---|
| Koodi: | IT00BL15 |
| OPS: | IT 2022 |
| Taso: | Insinööri (AMK) |
| Opiskeluvuosi: | 2 (2023-2024) |
| Lukukausi: | Syksy |
| Laajuus: | 5 op |
| Vastuuopettaja: | Mäkelä, Jarmo |
| Opetuskieli: | Englanti |
Toteutukset lukuvuonna 2023-2024
| Tot. | Ryhmä(t) | Opiskeluaika | Opettaja(t) | Kieli | Ilmoittautuminen |
|---|---|---|---|---|---|
| 3001 | IT2022-2, IT2022-2A, IT2022-2B | 28.8.2023 – 16.12.2023 | Jarmo Mäkelä | Suomi | 1.8.2023 – 6.9.2023 |
Osaamistavoitteet
At the end of the course the student has a good knowledge on the differential and integral calculus of single-variable functions. The student also knows the basics of ordinary differential equations and series, and possesses rudimentary knowledge on multivariable analysis.
Opiskelijan työmäärä
The total workload of the student during the course is approximately 130 hours.
Edeltävät opinnot / Suositellut valinnaiset opinnot
Basics of Technical Mathematics
Sisältö
1) Limit and continuity of a function. 2) The derivative of a function and its geometrical interpretation. 3) Rules of differentiation. 4) Partial derivative and differentials. 5) Optimization of single-variable functions. 6) Optimization of multivariable functions. 7) Lagrange's method of undetermined variables. 7) Inverse function differentiation. 8) Inverse trigonometric functions and their derivatives. 9) Implicit differentiation. 9) Indefinite integral. 10) Definite integral and its geometrical interpretation. 11) Methods of integration: Integration by parts, integration by substitution, integration by means of partial fractions. 12) Hyperbolic functions and their properties. 13) Trigonometric and hyperbolic subsititutions in indefinite integrals. 14) The volume of the solid of revolution. 15) The length of a curve. 16) The sheet area of the surface of revolution. 17) The center of gravity of a plate. 18) Surface integral and its geometrical interpretation. 19) Evaluation of surface integrals in curvilinear coordinates. 20) First-order differential equations. 22) Second-order linear differential equation with constant coefficients. 23) Laplace transform. 24) Inverse Laplace transform. 25) Solution of linear differential equations by means of Laplace transforms. 26) Series. 27) Arithmetic and geometrical series. 28) Power series: Maclaurin series. 29) Binomial series. 30) Evaluation of indefinite integrals by means of power series. 31) Elements of Fourier series.
Opiskelumateriaali
G. James: Engineering Mathematics (recommended reading)
Opetusmuoto / Opetusmenetelmät
The course consists of lectures and exercise classes.
Arviointikriteerit
The possible grades obtainable from the course are 1, 2, 3, 4, 5.
1: The student knows the basic concepts of the course
2: The student knows about one-half of the topics taught on the course, and is able to solve simple problems
3: The student is able to solve pretty challenging problems and knows the concepts of the course
4: The student knows more or less the topics learned in the course
5: The sudent knows everything taught in the course.
Arviointimenetelmät
There will be two exams in the course. The grade is determined by the total number of the points obtained from the exams. In addition, the sudent must solve a given number of exercise problems.