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ADVANCED INSTRUMENTAL ANALYSIS TECHNIQUES
226109007
Description
UNIT I. INSTRUMENTAL METHODS OF ANALYSIS
Lesson 1. Introduction to instrumental methods of analysis
Lesson 2. Inductively Coupled Plasma spectrometry
Lesson 3. Infrared Spectroscopy
Lesson 4. X-ray diffraction
Lesson 5. Chromatographical methods
Lesson 6. Electron microscopy
ECTS credits
3
Teaching Language
Español
Exam Language
Español
Support Materials Language
Español
Basic Learning Outcomes
  • Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design,  project, planning, management and operation in the fields of Environmental engineering. 
    (B1 - EEM - Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design,  project, planning, management and operation in the fields of Environmental engineering. )
  • In depth knowledge of  scientific and technological applications for the solution of Environmental engineering problems. 
    (B7 - EEM - In depth knowledge of  scientific and technological applications for the solution of Environmental engineering problems. )
  • Advanced laboratory skills and the ability to design and conduct experimental investigations, critically evaluate data and draw conclusions. 
    (B8 - EEM - Advanced laboratory skills and the ability to design and conduct experimental investigations, critically evaluate data and draw conclusions. )
  • Ability to critically formulate conclusions on the applicability and sustainability of the research theme. 
    (B9 - EEM - Ability to critically formulate conclusions on the applicability and sustainability of the research theme. )
Final Learning Outcomes
  • Creating sustainable solutions to practical and complex Environmental Engineering problems with critical awareness of the wider multidisciplinary context of engineering.
    (F3 - EEM - Creating sustainable solutions to practical and complex Environmental Engineering problems with critical awareness of the wider multidisciplinary context of engineering.)
  • Formulate solutions to practical Environmental Engineering problems using multidisciplinary approaches 
    (F3b - EEM - Formulate solutions to practical Environmental Engineering problems using multidisciplinary approaches )
  • Mastering design principles based on original, resilient, sustainable, and reliable solutions for the implementation of Environmental Engineering systems.
    (F5 - EEM - Mastering design principles based on original, resilient, sustainable, and reliable solutions for the implementation of Environmental Engineering systems.)
  • Leading or supporting innovation including process improvement and life-long learning.
    (F12 - EEM - Leading or supporting innovation including process improvement and life-long learning.)
  • Applying reporting and dissemination skills for efficient and traceable documentation and communication of technical and scientific issues.
    (F13 - EEM - Applying reporting and dissemination skills for efficient and traceable documentation and communication of technical and scientific issues.)
  • Generating and/or creating innovative sustainable solutions to new problems in  Environmental Engineering. 
    (F14 - EEM - Generating and/or creating innovative sustainable solutions to new problems in  Environmental Engineering. )
  • Ability to follow research developments in science and technology. 
    (F15 - EEM - Ability to follow research developments in science and technology. )
  • Ability to integrate information from different sources into practical application and research.
    (F16 - EEM - Ability to integrate information from different sources into practical application and research.)
Course categorized
Managing Entity (faculty)