Social and environmental commitment
To act with ethics and professional responsibility in the face of social, environmental and economic challenges, taking democratic principles and values and the Sustainable Development Goals as a reference. |
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Innovation and creativity
Propose creative and innovative solutions to complex situations or problems, specific to the field of knowledge, in order to meet diverse professional and social needs. |
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Teamwork and leadership
Collaborate effectively in work teams, assuming responsibilities and leadership roles and contributing to collective improvement and development. |
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Effective communication
Communicate effectively, both orally and in writing, adapting to the characteristics of the situation and the audience. |
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Responsibility and decision-making
Act autonomously in learning, making informed decisions in different contexts, making judgements based on experimentation and analysis and transferring knowledge to new situations. |
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Fundamental
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Apply mathematical foundations and methods as well as develop computational skills to solve qualitative and quantitative problems in the context of chemistry.
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Interpret the molecular bases and chemical processes of living beings.
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Apply the fundamentals and methods of Physics for solving problems and their application to analytical techniques specific to Chemistry.
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Apply the fundamentals and methods of Chemical Engineering to solve problems specific to Chemistry.
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Describe and know facts, concepts, principles, methods and theories of Chemistry, relating them to the problems of society.
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Monitor, record, document and interpret chemical processes applying laboratory techniques and instrumentation and relating the results to appropriate theory.
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Assessing risk related to the handling of chemical substances, taking into account their physical-chemical properties, and laboratory procedures and apply the measures.
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Use computational and data processing tools in chemistry, and operate with information technologies and management.
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Apply statistical fundamentals and methods to estimate magnitudes and associated errors and statistical models in problems specific to Chemistry.
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Apply numerical and calculation operations, including estimation of magnitudes, units and their error.
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Analyze materials with technological and industrial value and categorize the production processes of the Chemical Industry and related industries.
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Apply the principles of Quantum Chemistry, Thermodynamics and Chemical Kinetics to describe the structure and properties of matter, relating microscopic behavior to macroscopic properties.
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Deduce the structure and properties of matter and its interaction with electromagnetic radiation from the understanding of the principles of spectroscopy.
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Explain the physical-chemical principles associated with analytical methods to develop analysis methodologies based on the information need.
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Critically evaluate analytical techniques to optimize and apply methods that provide qualitative and quantitative information.
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Interpret and predict the properties of inorganic compounds based on their structure and type of bond.
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Solve practical and theoretical problems related to inorganic chemistry.
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Apply the structural properties and reactivity of compounds and organic functional groups to apply them to the solution of synthetic and structural problems.
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Interpret spectroscopic data to elucidate structure.
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Defend an original study in the field of Chemistry, in which concepts and results are analyzed and synthesized.
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