| TMME23 | Engineering Mechanics Y, ECTS-points /MEKANIK Y/ Advancement level: B | |
| Aim: To familiarize the students with the basic laws within classical mechanics and the skill to apply the laws to concrete mechanical problems independently. Prerequisites: TATM 06 Analysis Y, TATM18 Linear algebra 1 as well as TATM41 Vector analysis.Supplementary courses: TMHL Mechanics of Materials, TMMV Mechanical heat and flow theory Course organization: The lectures treat important sections and can include not only theory but also illustrative experiments. Computational exercises in association with the lectures. The course is divided into two sections.Course content: Part 1. Statics (basic concepts, force and momentum, reduction of force systems and rigid body equilibrium, center of mass). Particle kinematics (velocity and acceleration, collinear motion, plane curvilinear motion in cartesian, natural and polar coordinates, general curvilinear motion in cartesian coordinates, general about relative motion). Particle kinetics (force equation, work and energy, kinetic energy and potential energy, impulse and momentum, course of impact, central force motion, force equation in rotating coordinate systems, vibration). Part 2 Rigid body plane kinematics (angular velocity and angular acceleration, relative velocity and relative acceleration in translating and rotating coordinate systems). Kinetics of the particle system (force equation, equation of moments, momentum and moment of momentum, center of mass, and center of gravity). Rigid body plane kinetics (force equation and equation of moments, moment of mass inertia, work and energy, impulse and momentum, moment of impulse and moment of momentum, impact). Rigid body three dimensional kinematics (absolute and relative motion in translated and rotating reference systems). Rigid body three dimensional kinetics (moment of momentum, inertia matrix, Eulerâs equations, fixed axis rotation, fixed point rotation, general three dimensional motion, kinetic energy, gyroscopic motion).Course literature: Meriam, J.L., Kraige, L.G.: Engineering Mechanics, Volume 2, Dynamics, SI-Version, 3rd Edition, John Wiley & Sons Inc, 1993. Excercises edited by IKP.Assessment: | ||
| TEN 1 | Written examination | |
| TEN 2 | Written examination | |
| An examination is held after each subcourse. The examination are designed in a problem solving format, with a maximum score of 15 points. 6 points are passing. | ||