Introduction

We are proud to announce Urban Air Mobility (UAM) Aircraft design Certificate Program, instructor-led, Online. Unlock Your Future in Aviation! Are you ready to design the next generation of UAM Aircraft or drones—even if you have no aerospace or engineering background? Our comprehensive 20-day UAM Aircraft Design Certificate Course is your gateway to the skies.

What You’ll Learn:

• Fundamentals of Flight: Master the essential principles of aerodynamics, aircraft performance, and stability.

• Hands-On Software Training: Get practical experience with cutting-edge open-source design tools that empower you to turn your ideas into reality.

• Step-by-Step Guidance: Our course is divided into two immersive 10-day sessions. The first session covers the basics and lays a strong foundation, while the second session guides you through the process of designing an aircraft or a drone.

Why Enroll?

Whether you’re a curious beginner or looking to enhance your technical expertise, this course is tailored to equip you with the knowledge and skills needed to create innovative aircraft from scratch.

Take Off With Us:

Transform your passion for aviation into tangible skills. Enroll today and start designing the aircrafts of tomorrow! This is a 20-day UAM Aircraft Design Certicate Program. The Program is designed for beginners who doesn’t have any designing background, formal education or experience. The complete Program consist of four modular courses. Below is the course description of each module.

1 -: Aircraft Aerodynamics (3 days):

This module covers the fundamental principles of aerodynamics, including airflow, pressure distribution, lift and drag forces, and airflow characteristics. It also explores how different aircraft components are shaped to optimize aerodynamic performance.

2 -: Aircraft Performance (3 days)

This module covers the principles of design parameters that influence aircraft performance, such as weight, thrust, drag, and efficiency. It explains how to optimize design parameters for better performance and introduces the basics of flight testing and performance evaluation.

3 -: Aircraft Stabilization and Control (4 days)

This module focuses on aircraft stability, control surfaces, and flight dynamics. It covers topics such as static and dynamic stability, flight control mechanisms, and basic autopilot concepts for maintaining stable flight. Practical examples will be used to illustrate real-world stabilization challenges.

4 -: Aircraft Design (10 days)

This course provides an in-depth understanding of aircraft design principles, including weight estimation, aircraft layout and configuration, propulsion system selection, and performance analysis. It covers conceptual and preliminary design processes and introduces open-source software (e.g., OpenVSP, XFLR5) for the design process. A sample aircraft will be designed from scratch, with students applying the concepts learned throughout the course.