Subject description - A0B14TME

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A0B14TME Engineering mechanics Extent of teaching:2+2s
Guarantors:  Roles:V Language of
teaching:
CS
Teachers:  Completion:Z,ZK
Responsible Department:13114 Credits:4 Semester:L

Anotation:

This subject provides knowledge of applied mechanics for the industry practice. Analysis of constructional elements and their dimensioning. Kinematics of simple mechanisms. Dynamic behaviour of mechanical systems, mechanic vibrations. Thermodynamics of real gases and vapours, their processes an cycles, basic comparative cycles of heat machines. Fundamentals of hydrodynamics, transport losses in hydraulic systems.

Course outlines:

1. Fundamentals of engineering mechanics. Degrees of freedom, bonds. Force systems.
2. Statics of supported body, body systems. Trusses.
3. Catenary. Statics of body systems with passive resistances.
4. Fundamentals of elasticity, strength and deformation.
5. Pure kinds of stresses, computational methods.
6. Kinematics of particles and bodies. Motion of a reference frame, relative motion.
7. Kinematics of body systems. Analysis and synthesis of linkages.
8. Dynamics of translational and rotational body motions, equation of motion, integral principles
9. Free body method in dynamics of systems, mechanical vibration
10. Fundamentals of power thermodynamics, properties of real gases and vapours.
11. Thermodynamic state surface of water and water steam, reversible processes in water steam.
12. Cycles. Basic comparative cycles of gas and steam turbines.
13. Fundamentals of hydrodynamics, continuity equation, equation of motion.
14. Power losses of flow in stream tube.

Exercises outline:

1. Vector algebra of forces, reactions in bonds of supported body.
2. Free body method for body systems.
3. Trusses. Systems with passive resistances.
4. Plane strength, determination main stresses
5. Dimensioning of circular shaft in pure torsion.
6. Stress in beam in pure bending.
7. Combination of torsion and bending in shaft.
8. Determination of velocity and acceleration of body in plane motion.
9. Analysis of mechanisms (four link, crank, cam).
10. Equations of motion of rotors.
11. Equation of motion of system with one degree of freedom.
12. H-s diagram of water steam, reversible processes
13. Work and efficiency of comparative cycle of steam turbine.
14. Application of Bernoulli equation on conduit systems.

Literature:

1. Beer, F. P., Johnston, E.R. Vector Mechanics for Engineers (Statics, Dynamics). Fifth Edition, Mc Graw-Hill Book Company, New York, 1988.
2. Munson, B.R., Yong, D.F., Okiishi, T.H. : Fundamentals of Fluid Mechanics. John Wiley & Sons, Inc., New York, 1990.
3. Kays, W.M., Crawford, M.E. : Convective Heat and Mass Transfer. Third Edition, Mc. Graw-Hill, Inc., New York, 1993.
4. Mareš, R., Šifner, O., Kadrnožka,J. : Tables of Properties of Water and Steam. VUITIUM Brno, 1999

Requirements:

Webpage:

https://moodle.fel.cvut.cz/courses/A0B14TME

Subject is included into these academic programs:

Program Branch Role Recommended semester
BPOI1 Computer Systems V
BPOI_BO Common courses V
BPOI3 Software Systems V
BPOI2 Computer and Information Science V
BPKYR1 Robotics V
BPKYR_BO Common courses V
BPKYR3 Systems and Control V
BPKYR2 Sensors and Instrumentation V
BPKME1 Communication Technology V
BPKME5 Komunikace a elektronika V
BPKME_BO Common courses V
BPKME4 Network and Information Technology V
BPKME3 Applied Electronics V
BPKME2 Multimedia Technology V
BPEEM1 Applied Electrical Engineering V
BPEEM_BO Common courses V
BPEEM2 Electrical Engineering and Management V
BMI(ECTS) Manager Informatics V
BWM(ECTS) Web and Multimedia V
BIS(ECTS) Intelligent Systems V
BSI(ECTS) Software Engineering V


Page updated 27.5.2019 07:53:08, semester: Z,L/2020-1, L/2019-20, Z,L/2018-9, Z/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)