Bachelor of Science in Aerospace Engineering and Space Exploration

RVOE 20233643

Objectives:

To train graduates in Aerospace Engineering and Space Exploration with the knowledge, skills and abilities to design, manufacture and certify a wide variety of products and systems, from space shuttles and satellites to helicopters and airplanes, including rocket engines and turboprops. They can also design and certify airport and air navigation systems, as well as the tools necessary for the maintenance of these vehicles and systems. They also have the emotional strength and skills to create innovation and entrepreneurship projects in a digital context.

First quarter:

  • Calculus I
  • Linear algebra
  • Physics I
  • Programming
  • Statistics
  • Emotional intelligence

Second quarter:

  • Calculus II
  • Chemical Fundamentals in Engineering
  • Physics II
  • Graphic expression
  • Fundamentals of electronic engineering
  • Digital evolution
Third quarter:
  • Calculus III
  • Advanced spreadsheets
  • Modeling in aerospace engineering
  • Mechanics applied to aerospace engineering
  • Aerospace materials I
  • Innovation I: Formulation and validation of business idea

Four quarter:

  • Thermal engineering
  • Elasticity and resistance of materials
  • Fluid Mechanics I
  • Aerodynamics I
  • Aerospace materials II
  • Leadership and teamwork

Fifth quarter:

  • Aerospace structures
  • Aircraft systems and facilities
  • Fluid Mechanics II
  • Aerodynamics II
  • Navigation, air transport and airports
  • Innovation II: Development of business idea prototypes

Sixth quarter:

  • Aerospace Design I
  • Stability and integrity of aerospace structures
  • Aerospace propulsion I
  • Flight Mechanics I
  • Aerospace systems control
  • Meditation

Seventh quarter:

  • Embedded systems integration
  • Aerospace propulsion II
  • Flight Mechanics II
  • Turboprop design
  • Innovation III: Raising capital

Eighth quarter:

  • Combustion
  • Design of turbo machines
  • Aeroelasticity
  • Aircraft design and calculation
  • Helicopters and various aircraft
  • Personal Finance

Ninth quarter:

  • Rocket engines
  • Electronic instrumentation in energy systems
  • Spacecraft and orbital dynamics
  • Fundamentals of ethics
  • Research seminar
  • Innovation IV: Legal constitution and commercial launch of the business

RVOE 20233643

Objectives:

To train graduates in Aerospace Engineering and Space Exploration with the knowledge, skills and abilities to design, manufacture and certify a wide variety of products and systems, from space shuttles and satellites to helicopters and airplanes, including rocket engines and turboprops. They can also design and certify airport and air navigation systems, as well as the tools necessary for the maintenance of these vehicles and systems. They also have the emotional strength and skills to create innovation and entrepreneurship projects in a digital context.

First quarter:

  • Calculus I
  • Linear algebra
  • Physics I
  • Programming
  • Statistics
  • Emotional intelligence

Second quarter:

  • Calculus II
  • Chemical Fundamentals in Engineering
  • Physics II
  • Graphic expression
  • Fundamentals of electronic engineering
  • Digital evolution
Third quarter:
  • Calculus III
  • Advanced spreadsheets
  • Modeling in aerospace engineering
  • Mechanics applied to aerospace engineering
  • Aerospace materials I
  • Innovation I: Formulation and validation of business idea

Four quarter:

  • Thermal engineering
  • Elasticity and resistance of materials
  • Fluid Mechanics I
  • Aerodynamics I
  • Aerospace materials II
  • Leadership and teamwork

Fifth quarter:

  • Aerospace structures
  • Aircraft systems and facilities
  • Fluid Mechanics II
  • Aerodynamics II
  • Navigation, air transport and airports
  • Innovation II: Development of business idea prototypes

Sixth quarter:

  • Aerospace Design I
  • Stability and integrity of aerospace structures
  • Aerospace propulsion I
  • Flight Mechanics I
  • Aerospace systems control
  • Meditation

Seventh quarter:

  • Embedded systems integration
  • Aerospace propulsion II
  • Flight Mechanics II
  • Turboprop design
  • Innovation III: Raising capital

Eighth quarter:

  • Combustion
  • Design of turbo machines
  • Aeroelasticity
  • Aircraft design and calculation
  • Helicopters and various aircraft
  • Personal Finance

Ninth quarter:

  • Rocket engines
  • Electronic instrumentation in energy systems
  • Spacecraft and orbital dynamics
  • Fundamentals of ethics
  • Research seminar
  • Innovation IV: Legal constitution and commercial launch of the business

Find your ideal career