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Lluís Foreman - ValueKnow

The Aerospace Engineering: Aircraft Fundamentals and Advanced Course is a multidisciplinary course where you will study the aerodynamics, mechanics and engineering of Airplanes and Aircraft. My intention is that you fully understand the main topics regarding Design and Engineering of Aircraft and Airplanes.

The structure of the Course is the following:

Introduction

Classification of Airplanes

Aerodynamics

JET Engines

Flight Mechanics

Performance

Read more

The Aerospace Engineering: Aircraft Fundamentals and Advanced Course is a multidisciplinary course where you will study the aerodynamics, mechanics and engineering of Airplanes and Aircraft. My intention is that you fully understand the main topics regarding Design and Engineering of Aircraft and Airplanes.

The structure of the Course is the following:

Introduction

Classification of Airplanes

Aerodynamics

JET Engines

Flight Mechanics

Performance

We will discuss topics such as Stability, Mechanics and Rigid-Body Physics, Aircraft types and history, Flight Mechanics and Maneuvers, Control Surfaces, TurboFans and much more.

The objectives of the Course are for you to understand how Airplanes generate Lift, how the Lift is related to the Drag and how the Drag requires a constant Thrust provided by the engines. Engine types and comparison, which one is more efficient and why? Flight Mechanics and control surfaces and Performance of the Aircraft depending on the Range and Weights.

I encourage you to begin this journey to Aerospace Engineering, you won't regret it. If you have any doubts during the course feel free to contact me, I will answer as quick as possible.

The course was included in the Udemy for Business. This inclusion is a guarantee of the quality of the content, being provided to companies around the globe. Most reviewed course on Aerospace Engineering  Udemy.

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What's inside

Learning objectives

  • Understand the basics of aerospace engineering
  • Identify the components of an aircraft and their purposes
  • Understand how airplanes fly and their key parameters
  • Identify the type of aircraft suited for each mission
  • Define and propose your own aircraft
  • Understand the basics of stability and aircraft design

Syllabus

Introduction
Presentation of the course
Course structure
Introduction to airplanes and main elements
Read more

We will introduce the definition of the Mach number with respect to Subsonic Aircraft and Supersonic Aircraft.

Classification of Airplanes
General Aviation
Commercial Aircraft
Military Aircraft

Engineering is about prioritization. How would you handle the design of an aircraft?

Aerodynamics
Airplane Forces and Trajectory
Airplane Forces and Trajectory Questions
Lift and Drag. Newton's 3rd Law and Bernoulli.
Airfoil design
3D Wing Effects
Wing Configurations
High Lift Devices
Turbulence and Stall

Let's see if you can answer correctly to the following Technical Question:

Airplane Propulsion Engines (JETs)
Engines Overview
Inlets
Compressors
Combustion Chambers
Turbines and Nozzles
TurboJet vs TurboFan Review
TurboJet vs. TurboFan
Flight Mechanics
Gravity Center and Pressure Center: Stability
Control Surfaces of an Aircraft and Maneuvers
Aircraft Performance
Definition of Weights
Range of an Aircraft as function of Weight
Optimization of Range - Breguet Equations
Summary and Additional Aircraft Components
Thank you Note
Farewell

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Explores propulsion engines, namely jet engines, which are used in aircraft
Examines aircraft performance, including range and optimization, which is highly relevant to aerospace engineering
Develops understanding of aircraft design and stability, which are core skills for aerospace engineers
Taught by Lluís Foreman - ValueKnow, who are recognized for their work in the field of Aerospace Engineering
Introduces airplane types and history, providing context for the field of Aerospace Engineering
Provides a strong foundation for beginners in the field of Aerospace Engineering

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Aerospace Engineering: Aircraft Fundamentals and Advanced with these activities:
Connect with Aerospace Professionals on LinkedIn
Expand your professional network and gain insights from industry experts by connecting with aerospace professionals on LinkedIn.
Browse courses on Networking
Show steps
  • Create a professional LinkedIn profile that highlights your skills and interests.
  • Search for and connect with professionals working in the aerospace industry.
  • Send personalized connection requests, expressing your interest in their expertise.
  • Engage with their posts and articles to demonstrate your knowledge and interest.
Read 'Fundamentals of Aerospace Engineering' by Anderson
Gain a comprehensive understanding of the fundamental principles and concepts of aerospace engineering from a respected textbook.
Show steps
  • Read the book thoroughly, focusing on understanding the key concepts.
  • Take notes and highlight important passages.
  • Solve the practice problems and review the solved examples.
  • Discuss the material with classmates or a tutor if needed.
Compile a Glossary of Aerospace Terminology
Enhance your comprehension of aerospace terminology by creating a comprehensive glossary of key terms and their definitions.
Browse courses on Terminology
Show steps
  • Gather a list of aerospace terms from lectures, textbooks, and online resources.
  • Define each term clearly and concisely.
  • Organize the terms alphabetically or by topic.
  • Review the glossary regularly to reinforce your understanding.
Five other activities
Expand to see all activities and additional details
Show all eight activities
Follow Online Tutorials on Jet Engine Performance
Enhance your knowledge of jet engine performance by following online tutorials and exploring interactive simulations.
Browse courses on Thermodynamics
Show steps
  • Search for reputable online resources that offer tutorials on jet engine performance.
  • Choose a tutorial that aligns with your learning goals.
  • Follow the instructions and complete the exercises provided.
  • Explore interactive simulations to visualize and understand the principles of jet engine performance.
Build an Aircraft Model
Deepen your understanding of aircraft design and aerodynamics by constructing a physical model of an aircraft.
Browse courses on Aircraft Design
Show steps
  • Research different aircraft designs and choose one to model.
  • Gather materials, such as cardboard, foam board, or lightweight wood.
  • Design and cut out the components of the aircraft, including the wings, fuselage, and tail.
  • Assemble the components using glue or other adhesives.
  • Test the model's flight characteristics by launching it or using a wind tunnel.
Practice Aircraft Design Calculations
Reinforce your understanding of the principles of aircraft design by practicing calculations related to lift, drag, weight, and balance.
Show steps
  • Review the formulas and equations for aircraft design calculations.
  • Find practice problems or create your own design scenarios.
  • Solve the problems using the relevant formulas and equations.
  • Check your answers against known solutions or consult with an expert.
Flight Simulation Practice
Gain practical experience in aircraft handling and maneuvers through flight simulation.
Browse courses on Flight Simulation
Show steps
  • Choose a flight simulator software that offers realistic aircraft models and flight dynamics.
  • Practice basic flight maneuvers, such as takeoff, landing, and turns.
  • Simulate different flight conditions, such as varying wind speeds and turbulence.
  • Analyze your performance and identify areas for improvement.
Participate in an Aerospace Case Competition
Challenge yourself and apply your knowledge in a practical setting by participating in an aerospace case competition.
Browse courses on Problem Solving
Show steps
  • Research aerospace case competitions and identify one that aligns with your interests.
  • Form a team with classmates or fellow enthusiasts.
  • Analyze the case study and develop a solution.
  • Prepare a presentation and pitch your solution to a panel of judges.
  • Reflect on your performance and learn from the feedback received.

Career center

Learners who complete Aerospace Engineering: Aircraft Fundamentals and Advanced will develop knowledge and skills that may be useful to these careers:
Aeronautical Engineer
An Aeronautical Engineer is focused on the research, design, development, and testing of aircraft, including both fixed-wing aircraft and rotorcraft. Their knowledge in aerodynamics, propulsion, and flight mechanics ensures the safe and efficient performance of aircraft. This course delves into the aerodynamics, mechanics, and engineering of aircraft, providing a solid foundation for aspiring Aeronautical Engineers. The course covers the principles of flight, discusses different types of aircraft, and explores propulsion systems.
Avionics Engineer
An Avionics Engineer specializes in the design, development, and integration of electronic systems for aircraft, spacecraft, and other vehicles. Their work involves integrating avionics systems with aircraft systems to ensure optimal performance and safety. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Avionics Engineers.
Flight Test Engineer
A Flight Test Engineer plans and conducts flight tests to evaluate the performance and handling characteristics of aircraft. They analyze data from flight tests to identify areas for improvement and ensure the safety and efficiency of aircraft. This course provides a thorough understanding of the principles of flight, aerodynamics, and aircraft performance, which are essential for Flight Test Engineers. The course also covers topics such as stability, control surfaces, and flight mechanics, providing valuable knowledge for aspiring Flight Test Engineers.
Aircraft Maintenance Engineer
An Aircraft Maintenance Engineer ensures the airworthiness and safety of aircraft by performing maintenance, repairs, and inspections. They use their knowledge of aircraft systems and components to identify and resolve issues, ensuring the smooth operation of aircraft. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Aircraft Maintenance Engineers.
Aerospace Engineer
An Aerospace Engineer designs spacecraft, aircraft, satellites, and missiles. They apply their knowledge in orbital mechanics, thermodynamics, and aerodynamics to guarantee the effectiveness of their designs. This course provides an understanding of the fundamentals of aerodynamics, mechanics, and engineering of aircraft. The course also covers topics such as stability, mechanics, and rigid-body physics, aircraft types and history, flight mechanics and maneuvers, control surfaces, and turbofans. Taking this course may be useful to an aspiring Aerospace Engineer.
Propulsion Engineer
A Propulsion Engineer designs, develops, and tests propulsion systems for aircraft, spacecraft, and other vehicles. They use their knowledge of thermodynamics, fluid mechanics, and combustion to optimize the performance and efficiency of propulsion systems. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Propulsion Engineers.
Aircraft Structural Engineer
An Aircraft Structural Engineer designs, analyzes, and tests the structural components of aircraft to ensure their strength, durability, and safety. They use their knowledge of materials, stress analysis, and structural mechanics to optimize aircraft designs. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Aircraft Structural Engineers.
Systems Engineer
A Systems Engineer integrates and manages complex systems, ensuring that they meet performance requirements and operate safely and efficiently. They use their knowledge of systems engineering principles and practices to design, develop, and test systems. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Systems Engineers.
Technical Writer
A Technical Writer creates and maintains technical documentation, such as manuals, reports, and specifications, to communicate complex technical information clearly and effectively. They use their knowledge of technical writing principles and practices to ensure that documentation is accurate, concise, and easy to understand. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Technical Writers.
Quality Assurance Engineer
A Quality Assurance Engineer ensures that products and services meet quality standards and regulations. They use their knowledge of quality assurance principles and practices to identify and resolve quality issues, ensuring that products and services are safe and reliable. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Quality Assurance Engineers.
Project Manager
A Project Manager plans, executes, and closes projects, ensuring that they are completed on time, within budget, and to the required quality standards. They use their knowledge of project management principles and practices to manage projects effectively and efficiently. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Project Managers.
Sales Engineer
A Sales Engineer provides technical support to customers and helps them select and implement the right products and services. They use their knowledge of technical products and services to explain their features and benefits to customers, and to help them make informed decisions. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Sales Engineers.
Manufacturing Engineer
A Manufacturing Engineer develops and implements manufacturing processes to produce products efficiently and cost-effectively. They use their knowledge of manufacturing principles and practices to design and optimize production lines, and to ensure that products meet quality standards. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Manufacturing Engineers.
Design Engineer
A Design Engineer designs and develops products, using their knowledge of engineering principles and practices to create products that are functional, reliable, and cost-effective. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Design Engineers.
Materials Engineer
A Materials Engineer develops and tests materials to improve their properties and performance. They use their knowledge of materials science and engineering to create new materials and to improve the performance of existing materials. This course provides a comprehensive overview of the fundamentals of aircraft engineering, covering topics such as aerodynamics, propulsion, flight mechanics, and stability. The course also discusses control surfaces and aircraft performance, providing a solid foundation for aspiring Materials Engineers.

Reading list

We've selected 12 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Aerospace Engineering: Aircraft Fundamentals and Advanced.
Introduces the fundamental principles of aircraft design, ideal for both beginning students and professionals.
Designed as a textbook for a first course in aerodynamics, this book covers the basic principles of aerodynamics in a readable and concise format, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of flight stability and automatic control, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of jet propulsion engines, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of avionics systems, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of aircraft performance and design, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of flight, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of helicopter aerodynamics, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of aircraft structures, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of avionics, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of aerospace engineering, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.
Provides a comprehensive overview of the principles of aerospace propulsion systems, including both the theoretical and practical aspects of the subject, suitable for both undergraduate and graduate students of aerospace engineering.

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