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Mechanics II. (E311102)
Katedra:ústav mechaniky, biomech.a mechatr. (12105)
Zkratka:Schválen:21.04.2008
Platí do: ??Rozsah:2P+2C
Semestr:*Kredity:4
Zakončení:Z,ZKJazyk výuky:EN
Anotace
Kinematics of point and of rigid bodies. Transformation matrix. Kinematics of concurrent movements. Motion: translation, rotation, general planar motion, spherical motion, screw motion, general spatial motion. Composition of mechanisms. Basic planar mechanisms.
Analytical methods in kinematics of mechanisms - Trigonometric and vector method. Graphical methods in kinematics. Basic theory of gearing. Transmition mechanisms with geers. Strutting and seezing in mechanisms. Cable mechanisms.
Vyučující
Ing. Martin Nečas MSc., Ph.D.
Letní 2023/2024
Ing. Martin Nečas MSc., Ph.D.
Letní 2022/2023
Ing. Martin Nečas MSc., Ph.D.
Letní 2021/2022
Osnova
- Kinematics of point.
- Kinematics of rigid bodies.
- Transformation matrix.
- Kinematics of concurrent movements.
- Kinematics of rigid bodies.
- Motion: translation, rotation, general planar motion, spherical motion, screw motion, general spatial motion
- Composition of mechanisms.
- Basic planar mechanisms.
- Analytical methods in kinematics of mechanisms.
- Trigonometric and vector method.
- Basic theory of gearing.
- Transmition mechanisms with geers.
- Strutting and seezing in mechanisms.
- Cable mechanisms.
Osnova cvičení
- Kinematics of point.
- Kinematics of rigid bodies.
- Transformation matrix.
- Kinematics of concurrent movements.
- Kinematics of rigid bodies.
- Motion: translation, rotation, general planar motion, spherical motion, screw motion, general spatial motion
- Composition of mechanisms.
- Basic planar mechanisms.
- Analytical methods in kinematics of mechanisms.
- Trigonometric and vector method.
- Basic theory of gearing.
- Transmition mechanisms with geers.
- Strutting and seezing in mechanisms.
- Cable mechanisms.
Literatura
Beer F.P., Johnson E.R.: Vector Mechanics for Engineers. Statics and Dynamics. McGraw-Hill, New York 1988.
Požadavky
1) Kinematics of point.
2) Kinematics of rigid bodies.
3) Transformation matrix.
4) Kinematics of concurrent movements.
5) Kinematics of rigid bodies.
6) Motion: translation, rotation, general planar motion, spherical motion, screw motion, general spatial motion
7) Composition of mechanisms.
8) Basic planar mechanisms.
9) Analytical methods in kinematics of mechanisms.
10) Trigonometric and vector method.
11) Basic theory of gearing.
12) Transmition mechanisms with geers.
13) Strutting and seezing in mechanisms.
14) Cable mechanisms.
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