A 100% online professional master’s degree that will allow you to delve into Material Physics and apply this science with current technology" 

The scientific community that focuses its studies on Material Physics continues to make progress and provide society with greater knowledge about new properties of existing resources, the development of nanomaterials and the promotion of other technological, biological or health disciplines. A progress, where engineering professionals can make a great contribution thanks to direct technique application and physics concepts.

At the same time, the need to find new, more effective, efficient and sustainable materials has driven this area, both from the private and public sectors. An expanding field of study for engineering specialists who wish to thrive in the field of Material Physics. For this reason, TECH has created this professional master’s degree, where over course of 12 months, the graduate will obtain the necessary knowledge about fluid mechanics, advanced thermodynamics and optics.

All this, in addition, with a university program that has educational tools in which the latest academic teaching technology has been used. Therefore, through video conferences, detailed videos or case study simulations, students will be able to delve, in a much more dynamic way, into symmetries and conservation laws, the handling of Navier-Stokes equations or the connection between the microscopic structure (atomic, nanometric or micrometric) and the macroscopic material properties.

This way, TECH offers engineering professionals the most advanced and exhaustive knowledge on Material Physics. All this through an exclusively online program that you can access whenever and wherever you want. Students only need an electronic device (computer, tablet or cell phone) with Internet connection to be able to view the information on the virtual platform. Also, with the Relearning system, you will be able to reduce the long hours of study normally spent in other methodologies.

Excel in the field of new materials discovery, thanks to the solid concepts you will acquire in this program"

This professional master’s degree in Material Physics contains the most complete and up-to-date program on the market. The most important features include:

• Practical case studies are presented by experts in Physics 
• The graphic, schematic, and practical contents with which they are created, provide scientific and practical information on the disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies  
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments 
• Content that is accessible from any fixed or portable device with an Internet connection

TECH adapts to you and has therefore created a university program, where you can distribute the teaching load according to your personal needs"

The program’s teaching staff includes professionals from the sector who contribute their work experience to this educational program, as well as renowned specialists from leading societies and prestigious universities.  

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.  

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the academic year For this purpose, the student will be assisted by an innovative interactive video system created by renowned and experienced experts.

Enroll now in a program that will allow you to open doors in the field of Material Physics"

Gain essential knowledge about magnetostatics in both material media and vacuum with this university program"

The drive to develop new materials opens up new career paths for engineering professionals. This is why this university program offers the most advanced knowledge in Material Physics. Thus, at the end of this online program, students will have mastered the key concepts of relativistic dynamics, experimental techniques in this field and the problem solving in classical mechanics. The specialized teaching team, forming part of this program, will resolve any doubts that may arise regarding the syllabus and will help you to achieve your objectives successfully.

Thanks to this university program, you will be able to understand the connection between the microscopic structure (atomic, nanometric or micrometric) and the macroscopic properties of materials"

General Objectives

• Advance in Relativistic Dynamics
• Know the most relevant experimental techniques in Material Physics
• Be able to distinguish the use of experimental techniques to solve a problem in Materials Science 
• Understand the relationship between optics and other physics disciplines 

Specific Objectives 

Module 1. Optics  

• Learn the basic knowledge of geometrical optics 
• Know the physical principles on which the most common optical instruments are based 
• Understand and analyze optical phenomena present in daily life 
• Apply the concepts of optics to physical problem solving related to optics 

Module 2. Classical Mechanics I 

• Solidify knowledge of Newtonian mechanics 
• Solve central Forces problems using rotational symmetry
• Know how to deal with particle and rigid solid systems 
• Study rigid solid rotations, the inertia tensor and Euler's equations 

Module 3. Electromagnetism

• Obtain a basic knowledge of the electric field and its properties 
• Apply knowledge of vector analysis to electric field studies 
• Achieve a basic understanding of the magnetic induction field
• Understand electrostatics both in vacuum and in material media
• Know dielectric characteristics 

Module 4. Classical Mechanics II  

• Know how to deal with particle systems and simple and coupled oscillators 
• Understand and know how to use quadrivector mathematical tools 
• Learn Lagrangian and Hamiltonian formalisms 
• Know how to solve classical mechanics problems using Newton's formulation as well as Lagrange's and Hamilton's 

Module 5. Electromagnetism II 

• Obtain a basic knowledge of the magnetic field and its properties 
• Gain an understanding of magnetostatics in both material media and in a vacuum 
• Know conservation electromagnetism laws and use them in problem solving 
• Know Maxwell's equations and be able to calculate various solutions such as electromagnetic waves and their propagation 

Module 6. Advanced Thermodynamics 

• Advance in the principles of thermodynamics
• Understand the concepts of collectivity and be able to differentiate between the different types
• Know how to distinguish which collectivity will be more useful to the study of a given system depending on the type of thermodynamic system
• Know the basics of the Ising model
• Gain knowledge of the difference between boson and baryon statistics

Module 7. Material Physics 

• Know the relationship between Materials Science and Physics, and the applicability of this science in today's technology 
• Understanding the connection between the microscopic structure (atomic, nanometric or micrometric) and the macroscopic properties of materials, as well as their interpretation in physical terms 
• Master the multiple properties of materials  

Module 8. Analog and Digital Electronics 

• Understand the operation of linear, non-linear and digital electronic circuits 
• Know the different forms of specification and implementation of digital systems 
• Identify the different electronic devices and their operation 
• Master the MOS digital circuits

Module 9. Statistical Physics 

• Understand the theory of collectivities and be able to apply it to the study of ideal and interacting systems, including phase transitions and critical phenomena
• Know the theory of stochastic processes and be able to apply it to simple cases 
• Be familiar with the elementary kinetic theory of transport processes and be able to apply it to dilute gases and quantum gases 

Module 10. Fluid Mechanics 

• Understand the general concepts of Fluid Physics and solve related problems 
• Know the basic characteristics of fluids and their behavior under various conditions 
• Know the constitutive equations 
• Acquire confidence in the handling of the Navier-Stokes equations 

With this university program, you will be able to test the variation of the parameters of metals due to crystalline structures”