Acquire updated knowledge of Fundamentals of Physics in 12 weeks and 100% online”

In productive sectors, the fundamentals of physics can be applied in different processes, such as heat transfer, boilers, air conditioning, refrigeration, manufacturing processes, cutting, cutting force, stamping pressure, hydraulic pressure, electricity, and electrical installations, among others. Thus, although it is not obvious at first glance, knowing the fundamentals of physics is essential for any professional involved in the organizational Industrial Engineering processes.

Likewise, these processes must be adapted to environmental laws, regulations and demands according to the setting. It is impossible to focus on results and propose strategies without ensuring that the proposed solutions minimize environmental impacts, granted that the technological progress, sustainability and tool implementation go hand in hand.

This Postgraduate certificate in Fundamentals of Physics divides the content into two modules with a specialized syllabus rigorously selected by expert teachers in the field, so professionals gain an in-depth understanding of the key concepts of the general laws of mechanics, kinematics, dynamics and thermodynamics; solve problems related to these key concepts; know how to apply the general laws related to these principles and also develop projects that include the calculations and measurements.

Likewise, this program includes the study of fundamental forces, conservation laws, energy and its components, magnetism and its materials; it will also cover the structure of atoms, subatomic particles, and the bases of quantum physics and relativity. These are among many other apsects that will be covered in depth throughout the program.

All this in a convenient, online format, which allows professionals to take on the course load at their own pace and completely free to choose how, where and when to study. From day one, all the content will be available in the virtual classroom, both for consultation and downloading from any device with an Internet connection, which greatly facilitates study time. 

Update your knowledge of fundamentals in Fundamentals of Physics as applied to industrial operations”

 

This Postgraduate certificate in Fundamentals of Physics contains the most complete and up-to-date scientific program on the market. The most important features include:

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

This Postgraduate certificate qualifies you to carry out implementation plans that include calculations and measurements” 

 

The program’s teaching staff includes professionals from the sector who contribute their work experience to this training 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 training programmed to train 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.  

Get inside knowledge of the study system that is revolutionizing today's digital university landscape"

Add this training to your professional profile and stand out with a specialized degree"

A program dedicated to today's professionals who wish to advance their career while balancing it with their current busy schedule. The deliberate distribution of the contents throughout two modules will allow students to easily grasp the concepts thanks to the relearning study methodology of which TECH is a pioneer. This, together with the variety of multimedia resources available, the guidance of renowned experts, the most secure and cutting-edge platforms, serves as the seal of quality for the training.

The theoretical content presented in dynamic interactive formats and the varied case studies will allow you to advance as efficiently as possible”

Module 1. Physics I

1.1. Magnitudes and Units in Physics

1.1.1.  Definition and Types 
1.1.2.  International System of Units 
1.1.3.  Homogeneity Law 
1.1.4.  Concept of Error 
1.1.5.  Basic Vecotr Calculations 

1.2.  Particle Kinematics 

1.2.1.  Motion Relativity: Reference and Trajectory Systems 
1.2.2.  Speed 
1.2.3.  Acceleration 
1.2.4.  Basic Kinematic Equations 

1.3. Elementary Motion 

1.3.1.  Linear Motion 
1.3.2.  Compound Motion 
1.3.3.  Circular Motion 
1.3.4.  Simple Harmonic Motion 

1.4. Particle Dynamics  

1.4.1.  Newton’s First Law 
1.4.2.  Newton’s Second Law 
1.4.3.  Newton’s Third Law 
1.4.4.  Principles of Conservation of Momentum 

1.5. Fundamental Concepts in Particle Dynamics 

1.5.1.  Gravitational Fields 
1.5.2.  Inertia Forces 
1.5.3.  Frictional Forces 
1.5.4.  Binding Forces 
1.5.5.  Type Problems 

1.6. Work and Energy  

1.6.1.  Work and Power 
1.6.2.  Energy and Types 
1.6.3.  Principle of Energy Conservation

1.7. Applying the Principle of Energy Conservation 

1.7.1.  Alternative Problem Resolution Methods 
1.7.2.  Free Fall and Frictionless Motion 
1.7.3.  Spring Systems 
1.7.4.  Free fall and Motion with Friction: Friction Work 

1.8. Particle Systems: Introduction to Rigid-Solids

1.8.1.  Particle Systems 
1.8.2.  Center of Mass in a System 
1.8.3.  Mass Scepter Reference System and Applications 
1.8.4.  Angular Momentum and Conservation Theorem 
1.8.5.  Kinetic and Potential Energy and Conservation Theorems 
1.8.6.  Introduction to Rigid-Solids in Particle Systems

1.9. Thermodynamics: First Principle 

1.9.1.  Introduction to Thermodynamics 
1.9.2.  Zero Principle in Thermodynamics 
1.9.3.  Thermal Equation of State 
1.9.4.  First Principle of Thermodynamics 

1.10. Thermodynamics: Second Principle and Entropy

1.10.1.  Direction in Thermodynamic Processes 

1.10.1.1. Spontaneous and Provoked Processes 
1.10.1.2. Reversible and Irreversible Processes

1.10.2.  Heat to Work Conversion and Vice Versa 
1.10.3.  Second Principle of Thermodynamics 
1.10.4.  Entropy and Variation Calculation 
1.10.5.  Interpreting Entropy

Module 2. Physics II

2.1. Fundamental Forces 

2.1.1.  Newton’s Second Law 
2.1.2.  Fundamental Forces of Nature 
2.1.3.  Gravitational Force 
2.1.4.  Electrical Force 

2.2. Conservation Law

2.2.1.  What is Mass? 
2.2.2.  Electrical Charge 
2.2.3.  Millikan’s Experiment 
2.2.4.  Conservation of Linear Momentum

2.3. Energy 

2.3.1.  What Energy Is 
2.3.2.  easuring Energy 
2.3.3.  Energy Types 
2.3.4.  Dependence on Observer Energy
2.3.5.  Potential Energy 
2.3.6.  Potential Energy Derivation 
2.3.7.  Energy Conservation 
2.3.8.  Energy Units 

2.4. Electrical Field  

2.4.1.  Static Electricity 
2.4.2.  Electrical Field 
2.4.3.  Capacity 
2.4.4.  Potentiality 

2.5. Electrical Circuits 

2.5.1.  Charge Circulation 
2.5.2.  Batteries 
2.5.3.  Alternating Current

2.6. Magnetism

2.6.1.  Introduction to Magnetic Materials 
2.6.2.  Magnetic Fields 
2.6.3.  Introduction to Electromagnetism 

2.7. Electromagnetic Spectrum  

2.7.1.  Maxwell’s Equations 
2.7.2.  Optics and Electromagnetic Waves 
2.7.3.  Michelson Morley’s Experiment 

2.8. Atoms and Subatomic Particles 

2.8.1.  Atoms 
2.8.2.  Atomic Nuclei 
2.8.3.  Radioactivity

2.9. Quantum Physics 

2.9.1.  Color and Heat 
2.9.2.  Photoelectric Effects 
2.9.3.  Matter Waves 
2.9.4.  Nature as Probability 

2.10. Relativity

2.10.1.  Gravity, Space and Time 
2.10.2.  Lorentz Transformations 
2.10.3.  Speed and Time 
2.10.4.  Energy, Momentum and Mass

A Postgraduate Certificate that will raise your curriculum profile thanks to its specialized nature. You will attract better job opportunities, start now”