Aerospace Engineering: The Complete Aerodynamics Course

Unlocking Flight Dynamics: Mastering Transonic Aerodynamics and Airfoil Design

What you'll learn

Transonic Aerodynamics Mastery: Understand transonic aerodynamics for aircraft and jets, exploring unique challenges in high-speed flight.

Advanced Air Effects Expertise: Dive deep into air compressibility and viscosity, grasping their impact on aircraft and Formula One cars.

Practical Airfoil Design: Acquire hands-on skills using aerodynamics software for designing functional airfoils, essential for aerospace employment.

Comprehensive Advanced Aerodynamics: Explore advanced concepts in transonic flight, covering pressure coefficient, shock waves, and critical elements for e

Requirements

No prerequisites or prior experience are required to enroll in "Aerospace Engineering: The Complete Aerodynamics Course." This course is designed to accommodate learners of all levels, including beginners with no background in engineering. Whether you're an aspiring aerospace professional or someone interested in aerodynamics for personal enrichment, the content is accessible and structured to guide you through the learning journey. Recommended but Not Required: Basic understanding of physics concepts. Familiarity with mathematical principles (algebra and trigonometry). Tools and Equipment: Access to a computer with an internet connection. Software requirements, if any, will be introduced and explained during the course. By keeping the prerequisites minimal, the course aims to lower barriers for beginners and make aerospace engineering and aerodynamics education accessible to a broader audience. The instructor will provide support for learners at every step, ensuring a smooth and enjoyable learning experience for all participants.

Description

Embark on a thrilling journey into the dynamic realm of aerospace engineering with our comprehensive Udemy course, "Aerospace Engineering: The Complete Aerodynamics Course." Designed for learners of all levels, from complete beginners to aspiring professionals, this course offers a deep dive into the fundamental principles and advanced concepts that govern aerodynamics.What You'll Learn:Transonic Aerodynamics Mastery: Explore the intricacies of transonic aerodynamics, unraveling the mysteries behind commercial aircraft and military jets' high-speed flight. Understand the unique challenges and considerations that shape the aerodynamic behavior of these cutting-edge vehicles.Advanced Air Effects Expertise: Delve into the complexities of air compressibility and viscosity, going beyond basic aerodynamics. Gain a comprehensive understanding of how these factors influence the performance of aerospace vehicles, from aircraft to Formula One racing cars.Practical Airfoil Design with Software: Acquire hands-on skills using aerodynamics software to design fully operational airfoils. Translate theoretical knowledge into practical applications, a crucial skill for those aspiring to work in the aerospace industry.Comprehensive Understanding of Advanced Concepts: Explore advanced aerodynamic concepts, including pressure coefficient, shock waves, and other critical elements in transonic aerodynamics. Develop the ability to analyze and interpret aerodynamic data, empowering you to make informed design decisions and troubleshoot challenges effectively.Why Enroll:Accessible Learning for All Levels: Whether you're a complete beginner or a seasoned professional, this course is tailored to meet you where you are in your aerospace engineering journey.Cost-Effective Education: Save money compared to traditional university courses while gaining access to content equivalent to what is taught in formal academic settings.Expert Guidance: Benefit from expert instruction and support at every step. The instructor is committed to making complex concepts understandable and applicable.Unlock the secrets of aerodynamics, elevate your understanding of aerospace engineering, and position yourself for success in this dynamic field. Enroll now and join a community of learners passionate about mastering the art and science of flight!

Overview

Section 1: Definition of the Word Aerodynamics

Lecture 1 Definition of the Word Aerodynamics

Section 2: Flying Principles and Aerostatics Principle

Lecture 2 Flying Principles and Aerostatics Principle

Lecture 3 Aerodynamic and Inertial Flying Principles

Lecture 4 Airplane Components and Usage

Lecture 5 Aerodynamic Schemes

Section 3: Coordinate Systems

Lecture 6 Coordinate Systems

Lecture 7 Flight Dynamics: Forces and Moments

Lecture 8 General Information for the Atmosphere

Lecture 9 Viscosity and Viscous Flows

Lecture 10 Air Compressibility and Mach Number

Lecture 11 Branches of Aerodynamics

Section 4: What is Transonic Flow?

Lecture 12 What is Transonic Flow?

Lecture 13 Physical Properties of Transonic Fluids

Lecture 14 Advanced Compressibility

Lecture 15 Pressure Coefficient

Lecture 16 Mach Waves and Shock Waves

Section 5: 2D Airfoils

Lecture 17 2D Airfoils

Lecture 18 Compressibility Effects for Airfoils

Lecture 19 Shock Waves on airfoils

Lecture 20 Viscous Flows

Lecture 21 Boundary Layers on Airfoils

Lecture 22 Viscous Flow Effects on Airfoils

Lecture 23 Shock-Induced Separation for Airfoils

Section 6: Classification of the Aircrafts

Lecture 24 Classification of the Aircrafts

Lecture 25 Definition of Swept Wing

Lecture 26 General Design Considerations

Lecture 27 Application of Wing Sweep

Lecture 28 Swept Wing Design Part 1

Lecture 29 Swept Wing Design: Part 2

Lecture 30 Swept Wing Performance

Lecture 31 Military Swept Wing Design

Section 7: Airfoil Performance Background

Lecture 32 Airfoil Performance Background

Lecture 33 Transonic Airfoil Characteristics

Lecture 34 Compressibility and Wave Drag

Lecture 35 General Drag Definitions and Prediction

Lecture 36 The Supercritical Airfoil

Lecture 37 Drag Prediction – Near-Field Method

Lecture 38 Drag Prediction – Far-Field Method

Lecture 39 Example of Drag Calculation

Lecture 40 Example of Calculation of Shock-Induced Separation

Lecture 41 Types of shock-induced separation

Section 8: Boundary Layer Performance Method

Lecture 42 Boundary Layer Performance Method

Lecture 43 Lift Dependent and Skin Friction Drag Methods

Lecture 44 Swept Wing Flow Separation

Section 9: Aerodynamics Software XFOIL

Lecture 45 Aerodynamics Software XFOIL

Aspiring Aerospace Engineers: Students or professionals aiming for a career in aerospace engineering, providing them with a comprehensive understanding of aerodynamics essential for success in the field.,Engineering Students: Students pursuing degrees in mechanical engineering, aeronautical engineering, or related disciplines who want to deepen their knowledge of aerodynamics.,Professionals in Aerospace Industry: Individuals already working in the aerospace sector seeking to enhance their expertise in aerodynamics, stay updated on industry trends, and advance their career prospects.,Enthusiasts and Hobbyists: Anyone with a keen interest in aerodynamics, aviation, or space exploration, looking to explore the principles behind flight for personal enrichment and understanding.,Formula One Enthusiasts: Fans of Formula One or racing car enthusiasts interested in understanding the aerodynamics that contribute to the high-performance capabilities of these vehicles.,Complete Beginners: Individuals with no prior experience in aerospace engineering or aerodynamics who want to start their learning journey from scratch. The course assumes no prior knowledge, making it accessible to everyone.