Public University of Navarre



Academic year: 2023/2024 | Previous academic years:  2022/2023  |  2021/2022  |  2020/2021  |  2019/2020 
Bachelor's degree in Industrial Engineering at the Universidad Pública de Navarra
Course code: 252504 Subject title: MACHINES THEORY
Credits: 6 Type of subject: Mandatory Year: 3 Period: 1º S
Department: Ingeniería
Lecturers:
ROS GANUZA, JAVIER (Resp)   [Mentoring ]

Partes de este texto:

 

Module/Subject matter

Scientific Module - Technological and Transversal

Thermic, Mechanics and Materials Engineering

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General proficiencies

The General Proficiencies that a student must achieve are:

CG1: Proficiency in writing, signing and development of projects in the industrial engineering environment in the three specific technologies: Mechanics, Electrics and Electronics. The purpose of these should be the construction, remodeling, repair, conservation, demolition, manufacture, installation, assembly or exploitation of structures, mechanics equipment, energy installations, electric and electronic installations, industrial plants and installations, and manufacturing and automation processes.

CG2: Proficiency in managing the project activities mentioned in the previous point.

CG3: Knowledge of the basic subjects and technologies leading to the ability to self-learning of new methods and theories and to the adaption to new situations.

CG4: Proficiency in solving problems on their own, making decisions, being creative, reasoning in a critical manner and communicating and transmitting knowledge, skills and abilities in the field of Industrial Engineering in the three specific technologies: mechanics, electrics and electronics.

CG5: The student should learn to make measurements, calculations, assessments, evaluations, reports, working plans and other related activities.

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Specific proficiencies

The Specific Proficiencies that a student must achieve are:

CC7: Knowledge of the principles of the Mechanism and Machine Theory.

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Learning outcomes

R1 .- Develop systems and perform simulations releated to mechanic machine thoery.
R2 .- Adquire sufficient knowledge on mechanics, to make them able to learn new methods and theories and to handle new situations.
R3 .- Express and communicate ideas related to machine and mechanic elements.
R4 .- Understand and apply the knowledge on mechanic machine theory to other releated fields or problems. 
 

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Methodology

Methodology - Activity
Lesson Hours
Non-Lesson Hours
A-1 Theory Lessons
26
 
A-2 Practicals, Lessons and Lab
26
 
A-3 Debates, sharing data, group tutorship
 
 
A-4 Assigned work development
 
14
A-5 Reading
 2
12
A-6 Individual studying
 
60
A-7 Exams and evaluation tests
6
 
A-8 Individual tutorship
 
 4
 
 
 
Total
60
90

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Relationship between formative activities and proficiencies/learning outcomes

Proficiencies
Formative activities
CG-1
A-2, A-3, A-5
CG-2
A-2, A-3, A-5
CG-3
A-2, A-3, A-5
CG-4
A-2, A-3, A-5
CG-5
A-2, A-3, A-5
CC7
A-1, A-2, A-3, A-4, A-5
 
 
 
 

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Languages

English.

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Evaluation

 

Learning
outcome
Assessment
activity
Weight (%) It allows
test resit
Minimum
required grade
R1,R2,R3,R4 Written exams releated to adquired concepts 85% Yes, with an exam 5.0
R1,R4 Practical exam releated to adquired concepts 15% No 0.0

 

  • In orther to pass the subject it is mandatory to pass the written exams. Moreover, the weighted mean value of all the evaluation instruments must be greater of equal to 5 out of 10.
  • If  the written ordinary exam has not been passed, there will be a second chance to pass the failed written exam.
  • If the ordinary written exam is passed, it will be possible to make the extra written exam in orther to increase the mean mark.
  • If a student does no pass the subject, the final mark will be the mean of the partial evaluation instruments. But if the mean mark is higher than 5 out of 10,  then the final mark will be 4.9.

 

 

 

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Contents

- Introduction to the Machine Theory.

- Kinematic Synthesis of Planar Mechanisms.

- Dynamic analysis of mechanisms

- Contact mechanisms: cams.
- Contact mechanisms: gears.

- Contact mechanisms: gear trains.

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Agenda

Topic 1: General concepts related to linkages

Topic 2: Graphic Synthesis of Linkages

Topic 3: Analytical Synthesis of Linkages

Topic 4: Balancing of shafts and mechanisms

Topic 5: Gyroscopic Effects

Topic 6: Flywheels

Topic 7: Cams

Topic 8: Gears

Topic 9: Gear trains

 

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Bibliography

Access the bibliography that your professor has requested from the Library.


Basic Bibliography:

 

TEORÍA DE MÁQUINAS
Authors: A. Cardona, D. Clos
Editorial: Ediciones UPC, 2001

 

Complementary bibliography:

PROBLEMAS RESUELTOS DE MECÁNICA DE MAQUINAS Y ESTRUCTURAS
Autor/es: Andrés de la Esperanza, Francisco Javier; García Ortiz, José Vicente; Mora Aguilar, Marta Covadonga y otros
Editorial: Universitat Jaume I. Año 2020


TEORÍA DE MÁQUINAS Y MECANISMOS
Authors: J.E. Shigley and J.J. Uicker, Jr.
Editorial: McGraw-Hill, México, año 1994

DESIGN OF MACHINERY.
Authors: R. L. Norton
Editorial: McGraw-Hill

DISEÑO DE MECANISMOS. ANÁLISIS Y SÍNTESIS, 3/e
Authors: A. G. Erdman and G. N. Sandor
Editorial: Prentice-Hall, año 1998

KINEMATICS AND DYNAMICS OF MACHINERY, 2/e
Authors: Ch. E. Wilson and J. P. Sadler
Editorial: Harper Collins College Publishers, año 1993

MECHANISMS AND DYNAMICS OF MACHINERY
Authors: H.H. Mabie and Ch.F. Reinholtz
Editorial: Wiley, año 1987

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Location

Arrosadia Campus

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