Sailing Aerodynamics from Udemy

What's inside

Syllabus

Introduction

Course Outline and Sailboat Components

Preliminary Material

Airfoil Terminology

Vector Force Diagrams for Sailing to Windward

Interactive Force Vector Computer Program

Aerodynamic Lift Generation

Preliminary Discussion Regarding Lift

Computing Lift

Bernoulli Equation

Explanation of Lift via Bernoulli Equation

Explanation of Lift via Newton's Laws

Lift and Circulation

Kelvin's Theorem

CFD Demonstration of the Kutta Condition

Bathtub Experiment

Superposition of Solutions to Potential Equation

Thin Airfoil Theory and Panel Methods

Panel Method Two-Dimensional Sail Analysis Code

Summary Explanation on the Origin of Lift

Additional Miscellaneous Topics

Velocity Prediction Program

Velocity Prediction Program Computer Code

WInd Pattern Downwind of a Sail

Wind Pattern Computer Code

Navier-Stokes Solutions

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Explores the application of aerodynamic lift specifically to sailboat sails, which may appeal to students interested in both fluid dynamics and sailing

Discusses a two-dimensional panel method program for analyzing sail interaction, offering a practical tool for those interested in sail design and performance

Examines the components of a velocity prediction program (VPP), providing insights into how sailboat performance is modeled and predicted

Includes computer programs available for download that run only under Microsoft Windows, which may limit accessibility for users with other operating systems

Requires a background in STEM, which may exclude learners from other fields who are interested in the topic but lack the necessary mathematical and scientific foundation

Explores the role of Kelvin's theorem and circulation in lift, which provides a theoretical foundation for understanding aerodynamic forces on sails

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 Sailing Aerodynamics with these activities:

Review Basic Physics Concepts

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Reinforce your understanding of fundamental physics principles, particularly those related to fluid dynamics and forces, which are essential for grasping the concepts of lift and sail aerodynamics.

Browse courses on Fluid Dynamics

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Review notes on fluid dynamics and pressure.
Practice problems related to forces and motion.

Review 'Aerodynamics for Naval Aviators'

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Supplement your knowledge with a general text on aerodynamics.

View Aerodynamics for Naval Aviators Navweps 00-80t... on Amazon

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Obtain a copy of 'Aerodynamics for Naval Aviators'.
Focus on chapters related to lift, drag, and airfoil design.
Relate the concepts to sail aerodynamics.

Read 'Sail Performance: Theory and Practice'

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Expand your understanding of sail aerodynamics with a detailed exploration of sail theory and practical applications.

View Sail Performance : Techniques to Maximize Sail... on Amazon

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Obtain a copy of 'Sail Performance: Theory and Practice'.
Read chapters related to lift, drag, and sail design.
Take notes on key concepts and formulas.

Three other activities

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Create a Video Explaining Lift Generation

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Solidify your understanding of lift generation by creating a video that explains the different theories and concepts discussed in the course.

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Research and outline the key concepts of lift generation.
Create a script and storyboard for the video.
Record and edit the video.
Share the video with peers for feedback.

Analyze Sail Designs Using Panel Method Software

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Apply the panel method program discussed in the course to analyze different sail designs and understand the interaction between jib and mainsail.

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Download and install the panel method software.
Create models of different sail configurations.
Run simulations and analyze the results.
Document your findings in a report.

Develop a Simplified Velocity Prediction Program

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Build a simplified VPP to predict sailboat speed based on wind conditions and sail characteristics, reinforcing your understanding of the components of a VPP.

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Review the course material on VPP components.
Design the program architecture and data flow.
Implement the program in a suitable programming language.
Test and validate the program with real-world data.

Career center

Learners who complete Sailing Aerodynamics will develop knowledge and skills that may be useful to these careers:

Sailing Coach

A Sailing Coach trains and mentors sailors to improve their skills and performance. Understanding the principles of aerodynamics, particularly as they apply to sails, is crucial for optimizing sailing techniques and strategies. This course can help you better understand the forces acting on a sailboat, including lift and drag, and how to adjust sails to maximize efficiency. The Sailing Aerodynamics course provides insights into the interaction between sails and wind, and also explains vector force diagrams for sailing to windward. By understanding these concepts, a sailing coach can provide more effective guidance to sailors.

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Yacht Designer

Yacht Designers create the aesthetic and functional designs for yachts and other sailing vessels. This requires a strong understanding of hydrodynamics, aerodynamics, and structural engineering. This course provides a foundation in aerodynamic lift specific to sails, which is essential for designing high-performance yachts. Yacht designers may find the discussion of lift, circulation, and the two-dimensional panel method program particularly valuable as it allows one to analyze and optimize sail designs. Knowledge about velocity prediction programs may be directly applicable for predicting the performance of a newly designed yacht.

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Hydrodynamicist

Hydrodynamicists study the motion of fluids and their interaction with solid objects. This field is directly relevant to sailing and yacht design, where understanding how water and air flow around a hull and sails is crucial. This course provides a deep dive into aerodynamic lift, Bernoulli's equation, and the Navier-Stokes equations, all fundamental concepts in hydrodynamics. Understanding these concepts are relevant when optimizing sail design and improving vessel performance. The study of vector force diagrams for sailing to windward is insightful for any aspiring hydrodynamicist.

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Naval Architect

A Naval Architect designs, constructs, and repairs marine vessels such as ships, boats, submarines, and offshore platforms. This role demands a deep understanding of fluid dynamics, structural mechanics, and hydrostatics. This course helps build a qualitative understanding of lift and discusses the components of a simple velocity prediction program. Through this course, you may gain knowledge of the interaction between a jib and mainsail. The material on vector force diagrams for sailing to windward may be particularly insightful. Knowledge of velocity prediction programs taught in Sailing Aerodynamics may be directly applicable when designing efficient sail configurations and hull forms.

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Simulation Engineer

Simulation Engineers design, develop, and implement computer simulations to analyze and predict the behavior of complex systems. This course focuses on aerodynamic lift with applications for sailboat sails. A student who wants to simulate fluid dynamics phenomena or wants to predict the performance of sailboats may find this course particularly insightful. The student can use the computer programs available for download in this course. The course material on the velocity prediction program is particularly useful.

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Performance Analyst

A performance analyst models the performance of complex systems and creates programs to analyze the performance of these systems. Performance analysts may be responsible for the performance of vessels and watercraft. This course focuses on aerodynamic lift with applications specifically geared toward sailboat sails. The sailboat analysis code and velocity prediction program covered in the topics may be interesting for a performance analyst.

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Marine Engineer

Marine Engineers design, develop, and maintain the mechanical, electrical, and electronic systems on ships and other marine vessels. Understanding aerodynamic principles, especially as applied to sails, can be valuable for optimizing vessel performance and efficiency. The Sailing Aerodynamics course may be useful as it provides a foundation in the forces acting on sailboats, including lift and drag, and discusses the interaction between the wind and sails. Marine engineers must consider these interactions when developing propulsion and control systems. The course's exploration of velocity prediction programs may allow the marine engineer to predict vessel performance under varying wind conditions.

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Computational Fluid Dynamics Engineer

Computational Fluid Dynamics Engineer applies numerical methods and software to simulate fluid flow and heat transfer. The Sailing Aerodynamics course introduces a two-dimensional panel method program for sail analysis, which provides experience with a simplified CFD application. The explanations of Bernoulli's equation and the Navier Stokes equations are relevant to this career. Anyone pursuing a career as a computational fluid dynamics engineer may find the superposition of solutions to potential equations, thin airfoil theory, and the panel method to be helpful.

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Aerospace Engineer

An Aerospace Engineer designs, tests, and supervises the manufacturing of aircraft and spacecraft. While the course focuses on sailboats, the principles of aerodynamic lift discussed are fundamental and broadly applicable to all aerodynamic surfaces. The equations of motion and Bernoulli's equation, as described in the Sailing Aerodynamics course, are essential concepts in aerospace engineering. The course's discussion of lift and circulation, as well as the exploration of panel methods, can help Aerospace Engineers when designing wings and control surfaces. The course may be useful to aerospace engineers as it provides a unique perspective on aerodynamic design optimization.

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Research Scientist

A research scientist explores the world through experiments and theories. The research scientist may focus on fluid dynamics and how that affects sailboats. This course focuses on aerodynamic lift with applications specifically geared toward sailboat sails. If you want to improve the performance of sailboats by improving the aerodynamic properties, this course may be of help. The thin airfoil theory and panel methods chapters may be particularly insightful.

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Wind Energy Engineer

A Wind Energy Engineer designs, develops, and maintains wind turbines and wind farms. Understanding aerodynamic principles is essential for maximizing energy capture. While this course is geared towards sailboat sails, many principles are shared with wind turbine blades. The discussions on aerodynamic lift generation, Bernoulli's equation, and lift and circulation in the Sailing Aerodynamics course may be useful for understanding how wind turbines extract energy from the wind. This course's approach to solving the equations of motion under an irrotational flow approximation and the inclusion of a two dimensional panel method may allow engineers to optimize wind turbine blade designs.

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Marine Surveyor

Marine Surveyors inspect and assess the condition of marine vessels, including their sails, hulls, and mechanical systems. A foundational understanding of aerodynamic principles can be beneficial in evaluating sail performance and identifying potential issues. This course may be useful to marine surveyors as it offers a discussion of lift and circulation, as well as an exploration of panel methods. Understanding these concepts helps marine surveyors in making informed assessments of a vessel's condition and performance capabilities.

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Mechanical Engineer

A Mechanical Engineer researches, designs, develops, manufactures, and tests mechanical devices and systems. This course explores the topic of aerodynamic lift with applications specifically geared toward sailboat sails. Mechanical engineers looking to join the boating and sailing industry may find knowledge of sailboat components and vector force diagrams beneficial. In addition, they will study the equations of motion under an irrotational flow approximation.

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Materials Engineer

Materials Engineers develop and test new materials for a variety of applications, including marine vessels and sails. Understanding the forces acting on sails and the effects of wind and water can help materials engineers to select the most appropriate materials for these applications. The Sailing Aerodynamics course can help materials engineers by providing insights into aerodynamic lift and pressure distribution on sails. The knowledge of sail materials aids in the development of durable, high-performance sails that can withstand the harsh marine environment. Consider how the equations of motion can be applied to the sail material.

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Instructor

An instructor teaches students in an educational setting. The instructor who is focusing on sailing, fluid dynamics, or mechanical design may find this course interesting. This course focuses on aerodynamic lift with applications specifically geared toward sailboat sails. The instructor can use the computer programs discussed in the course as a teaching aid. Furthermore, the instructor can learn and become more familiar with the topics to more effectively teach students in their course.

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Reading list

We've selected two 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 Sailing Aerodynamics.

Sail Performance

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Provides a comprehensive overview of sail aerodynamics, covering both theoretical concepts and practical applications. It delves into the complexities of sail design and performance, offering a deeper understanding of the forces at play. This book valuable resource for anyone seeking to enhance their knowledge of sail aerodynamics beyond the scope of the course. It is commonly used by sailing professionals and academics.

Sail Performance : Techniques to Maximize Sail Power

Hardcover

$$$$

Aerodynamics for Naval Aviators Navweps 00-80t-80

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Provides a solid foundation in aerodynamics, covering essential principles and concepts relevant to flight. While not specifically focused on sailing, it offers a broader understanding of aerodynamic forces and their applications. It is particularly helpful for students who want to strengthen their background knowledge in aerodynamics. It is commonly used as a textbook in introductory aerodynamics courses.

Aerodynamics for Naval Aviators Navweps 00-80t-80

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Aerodynamics for Naval Aviators Navweps 00-80t-80

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Sailing Aerodynamics

What's inside

Syllabus

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