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Airfoil & Wing Aerodynamics + Simulations with Python
Free Download Airfoil & Wing Aerodynamics + Simulations with Python
Published 8/2024
Created by Abdurrahman TEKIN
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English | Duration: 17 Lectures ( 3h 20m ) | Size: 3 GB
Elevate Your Understanding of Aerodynamics: Airfoil Design and Simulation with Python
What you'll learn:
Grasp the fundamental forces acting on an aircraft.
Learn the significance and role of airfoils in aerodynamics.
Identify critical parameters that define airfoil performance.
Understand the NACA system for classifying airfoils.
Master the geometric principles behind airfoil design.
Learn to calculate the slope of the camber line analytically.
Implement Python programming to compute camber line slopes.
Analyze and calculate the thickness distribution of airfoils.
Understand the importance of non-dimensional analysis in aerodynamics.
Create graphical representations of the NACA 0018 airfoil using Python.
Generate visualizations for the NACA 2412 airfoil using Python.
Build an interactive airfoil generator application using Streamlit.
Learn how to export airfoil data in CSV format for analysis.
Understand and compute lift and drag forces acting on airfoils using Python.
Gain skills in simulating airfoil behavior and performance through Python programming.
Requirements:
High School Mathematics
Basic Physics Knowledge
Python Programming Skills
Description:
This course is designed for aspiring aerospace engineers, aviation enthusiasts, and anyone eager to delve into the fascinating world of aerodynamics. Through a blend of theoretical concepts and hands-on Python simulations, you will gain a robust understanding of airfoil design, performance, and analysis.What You'll Learn:Foundations of Flight: Start with the four fundamental forces of flight, laying the groundwork for your understanding of how airfoils interact with airflow.Airfoil Fundamentals: Discover the definition and significance of airfoils, exploring the two main types and their key parameters.NACA Airfoil Classification: Dive into the NACA airfoil system, learning how to classify and construct airfoils geometrically.Mathematical Concepts: Master essential calculations, including the slope of the camber line and thickness distribution, using Python to enhance your computational skills.Hands-On Python Projects: Bring theory to life by drawing NACA airfoils (0018 and 2412) and creating an interactive NACA Airfoil Generator using Streamlit. You'll even learn how to download airfoil data as a CSV file for further analysis.Lift and Drag Calculations: Gain insights into the forces acting on airfoils by calculating lift and drag forces with Python, and understand how these forces influence performance.Simulation Techniques: Learn how to simulate airfoil behavior and performance using Python, equipping you with the tools to analyze and optimize designs.Why Choose This Course?Interactive Learning: Engage with practical exercises and projects that reinforce your understanding of complex concepts.Real-World Applications: Apply your knowledge to real-world scenarios, preparing you for careers in aerospace engineering, aerodynamics research, and related fields.Expert Guidance: Benefit from the expertise of instructors who are passionate about aerodynamics and committed to helping you succeed.Whether you're looking to enhance your skills for academic pursuits, professional development, or personal interest, this course is your gateway to mastering airfoil and wing aerodynamics. Join us on this exciting journey and take your first step toward becoming an expert in the field of aerodynamics!Enroll now and take flight into the world of airfoil design and analysis with Python!
Who this course is for:
Aerospace Engineering Students: Ideal for those studying aerospace or aeronautical engineering who want to deepen their understanding of airfoil and wing aerodynamics.
Aviation Enthusiasts: Perfect for hobbyists and aviation enthusiasts interested in the principles of flight and airfoil design.
Researchers: Beneficial for researchers in the field of fluid dynamics or aerodynamics who need to model and simulate airfoil behavior.
Educators: Useful for teachers and educators looking to incorporate practical simulations into their curriculum on aerodynamics.
Industry Professionals: Great for professionals in the aerospace industry seeking to enhance their understanding of airfoil design and performance analysis.
Simulation Enthusiasts: For those interested in computational fluid dynamics (CFD) and simulations related to airfoil performance.
Homepagehttps://www.udemy.com/course/airfoil-wing-aerodynamics-simulations-with-python/
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