This professional will apply knowledge and skills in physics, mathematics, programming, electronics, and instrumentation, with an appropriate balance of theoretical and practical aspects. Starting in the fifth semester, students can choose between the following specialization profiles:
| Profile of Graduates • Deep knowledge of the laws of physics.• Mastery of mathematics. • Use of programming languages and symbolic mathematical programs. • Use of numerical calculation programs. • Development of electronic (analog and digital) and electro-optical instrumentation. • Development of experimental skills. • Ability to solve technical problems related to the professional profile. • Capacity for self-learning, for individual or team work, capacity for analytical thinking. • Training to develop activities in research or industrial laboratories. • Ability to develop scientific projects and reports. • Ability to pursue postgraduate studies in fields such as physics, mathematics, electrical and electronic engineering and applied sciences. |
What is your field of work? The job market for IF graduates will be those public, private, national or foreign institutions that have an impact on the educational, research or industrial sectors. Specifically:• Teaching • Research • Optical industry • Renewable Energies • Chemical Industry • Automotive Industry • Electronics and Computer Industry | Curricular AdaptabilityThe Physics Engineering program incorporates elements of curricular and academic flexibility that allow students to shape their own career paths and professional identities based on the options available to them. |
CURRICULUM
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First Semester | Fifth Semester
• Probability and Statistics. • Applied Electronics. • First elective course. • Elective Course of First Emphasis (Professional). • Second Emphasis Elective (Professional). • English V. |
| Second Semester
• Differential and integral calculus. • Vector and matrix algebra. • Electric and Magnetic Phenomena. • Introduction to the chemistry of materials. • Applied Programming. • English II. | Sixth semester
• Mathematical methods of engineering. • Electromagnetism. • Programming of digital circuits. • Elective Specialization (Professional). • First elective specialization (in-depth). |
| Third Semester
• Vector calculus. • Introduction to vibration and wave physics. • Introduction to Physics Laboratory. • Principles of Instrumentation and Electrical Circuits. • Introduction to Optical Instrumentation. • English III. | Seventh semester
• Wave Physics (Professional). • Quantum Physics (Professional). • Virtual Instrumentation (Professional). • Second Elective Course (Basic). • Second elective course of basic specialization. • Social Service. |
| Fourth Semester
• Ordinary Differential Equations. • Numerical Methods Applied to Engineering. • Modern Physics. • Introduction to Thermodynamics. • Analog Electronics Laboratory. • English IV. | Eighth Semester
• Third Elective Course (Fundamentals). • Engineering Physics Project (Professional Practice). • Third concentration elective (professional). • Fourth concentration elective (professional). • Fifth Emphasis Elective (Professional). |
Raúl Eduardo Balderas Navarro PhD.
Phon:(444) 8 25 01 83 ext: 111, email: raul.balderas@uaslp.mx
Karakorum Ave. 1470, lomas 4ª secc.; C.P. 78210
San Luis Potosí S.L.P.
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