Aeroadda

+91 82352 44969
[email protected]
Facebook Instagram Youtube
Submit Assignment
Access Online Class
Test Series Login
aeroadda new logo
Resource
+91 82352 44969
[email protected]
  1. Home
  2. Course
  3. POTENTIAL FLOW THEORY
Aerospace Engineering - AE GATE Exam

POTENTIAL FLOW THEORY

41 hours
Aeroadda

About Course

This course delves into the fundamentals and applications of Potential Flow Theory, a crucial concept in fluid dynamics. It is designed to provide students with a comprehensive understanding of ideal fluid flow and its implications in various engineering and physical contexts.

What Will You Learn?

  • Fundamental concepts of potential flow and its assumptions
  • Mathematical formulation of potential flow problems using velocity potential and stream function
  • Solutions to Laplace’s equation in different coordinate systems
  • Superposition principle and construction of complex flow fields
  • Applications in calculating lift and drag forces
  • Techniques of conformal mapping and their use in fluid flow analysis
  • Analysis of flow around objects such as cylinders and airfoils

Material Includes

  • GATE AE 15 PYQs solution with chapter wise quizzes

Requirements

  • Basic understanding of fluid mechanics principles
  • Knowledge of differential equations and linear algebra
  • Familiarity with vector calculus
  • Previous coursework in engineering mathematics or physics

Course Content

POTENTIAL FLOW THEORY
Potential Flow Theory is a fundamental aspect of fluid mechanics that deals with the analysis of inviscid, incompressible fluid flows. This course offers a comprehensive examination of the theory and its practical applications. Students will start with the basic principles, such as the definition of potential flow and the conditions under which it applies. The course will cover key mathematical tools, including the velocity potential, stream function, and the solutions to Laplace's equation. Throughout the course, students will engage with various applications of potential flow theory, including the analysis of flow around bodies, calculation of lift and drag on airfoils, and the use of conformal mapping techniques. By the end of the course, students will have developed a strong theoretical foundation and practical skills to apply potential flow concepts to real-world engineering problems.

  • SOURCE FLOW
    00:00
  • SINK FLOW
    00:00
  • SOURCE AND SINK PAIR
    00:00
  • VORTEX FLOW
    00:00
  • DOUBLET FLOW
    00:00
  • RANKINE HALF BODY
    00:00
  • RANKINE FULL BODY
    00:00
  • NON ROTATING CYLINDER
    00:00
  • ROTATING CYLINDER
    00:00
  • MAGNUS EFFECT

Tags

Instructors

Aeroadda

Aeroadda

4.4
186 Students
45 Courses
Free
  • Intermediate
  • June 11, 2024

Related Courses

PROGRAMMING LANGUAGES

0 Lessons
48 hours
Intermediate
Aeroadda

DATA STRUCTURES AND ALGORITHMS

0 Lessons
52 hours
Intermediate
Aeroadda

ELECTROMAGNETICS ENGINEERING

3 Lessons
47 hours
Intermediate
Aeroadda

COMMUNICATIONS ENGINEERING

3 Lessons
51 hours
Intermediate
Aeroadda