General information


Subject type: Mandatory

Coordinator: Joan Triadó Aymerich

Trimester: First term

Credits: 6

Teaching staff: 

Carlos Paul Recarens

Teaching languages


  • Catalan

Skills


Specific skills
  • CE13: Knowledge of the principles of the theory of machines and mechanisms.

Description


The subject of Mechanical Systems refers to the statics and dynamics of rigid bodies where the fundamental principles of general mechanics applied to the behavior of solids are explained, both in a situation of static equilibrium and in dynamic movement of translation and rotation. These principles are related to Newton's laws applied to forces and moments.

Fields of application within engineering are related to the design of structures, machines and mechanisms.

 

Contents


1. CENTER OF GRAVITY

Description

  • Introduction to the center of gravity.
  • Center of mass and center of gravity.
  • Centroids of volumes, surfaces and lines.
  • Centroids of compound bodies.

Related activities

Class of theoretical explanation with examples in Large Group.
Small group problem solving class.
Small group laboratory practice class

 

2. KINEMATICS

Description

  • Rotating coordinate system.
  • Centripetal force and Coriolis force
  • Coriolis theorem.
  • Movement in the plan
  • Mechanics of orbits
  • Kinematics of movement in three dimensions.
  • Kinematics of planar movement
  • Instant center of rotation.

Related activities

Class of theoretical explanation with examples in Large Group.
Small group problem solving class.
Small group laboratory practice class

 

3. DYNAMICS

Description:

 

  • Mass Moment of Inertia.
  • Equations of motion of plane kinetics.
  • Amount of linear and angular motion.
  • Principle of momentum and amount of movement.
  • Conservation of the amount of movement.
  • Inertia Tensor.

Related activities

Class of theoretical explanation with examples in Large Group.
Small group problem solving class.
Small group laboratory practice class

 

 

Evaluation system


The evaluation system consists of three parts identified as follows. An exam at the end of the term where all the content of the subject is assessed. Laboratory practices are carried out throughout the term and are assessable. A problem solving session is held individually at mid-term.

The final grade is the weighted sum of the final exam, the laboratory practices and the individual problem session, with the following weights:

FINAL GRADE = EXAM x 0,6 + PRACTICES x 0,2 + PROBLEMS x 0,2

There will be an extraordinary exam recovery session for all students who do not pass the subject in the ordinary assessment. 

The grade of this recovery will replace the exam grade obtained in the ordinary assessment.

REFERENCES


Basic

Notes on Mechanical Systems. Carles Paul

Dynamics. RCHibbeler. Ed. Pearson

Static. RC Hibbeler. Ed. Pearson

Complementary

Vector Mechanics in Examples. Publio Pintado. Ed. Paraninfo