Fundamentals of Aerospace Engineering

Fundamentals of Aerospace Engineering, available at $59.99, has an average rating of 3.6, with 75 lectures, based on 19 reviews, and has 75 subscribers.

You will learn about Aerodynamics: the study of the behavior of fluids (especially air) when they interact with solid objects, including principles of lift and drag and the design o Propulsion: the study of the design and operation of engines, including turbojet, turbofan, and rocket engines, and principles of thrust and efficiency. Flight mechanics: the study of the motion of aircraft and spacecraft, including principles of stability, control, and performance. Systems engineering: the study of the integration of all of the subsystems in an aerospace vehicle, including avionics, control systems, and communication syste This course is ideal for individuals who are Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field. or Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses. or Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering. It is particularly useful for Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field. or Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses. or Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering.

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Summary

Title: Fundamentals of Aerospace Engineering

Price: $59.99

Average Rating: 3.6

Number of Lectures: 75

Number of Published Lectures: 75

Number of Curriculum Items: 75

Number of Published Curriculum Objects: 75

Original Price: ₹6,900

Quality Status: approved

Status: Live

What You Will Learn

Aerodynamics: the study of the behavior of fluids (especially air) when they interact with solid objects, including principles of lift and drag and the design o
Propulsion: the study of the design and operation of engines, including turbojet, turbofan, and rocket engines, and principles of thrust and efficiency.
Flight mechanics: the study of the motion of aircraft and spacecraft, including principles of stability, control, and performance.
Systems engineering: the study of the integration of all of the subsystems in an aerospace vehicle, including avionics, control systems, and communication syste

Who Should Attend

Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field.
Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses.
Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering.

Target Audiences

Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field.
Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses.
Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering.

The course “Fundamentals of Aerospace Engineering” is an introductory level course that provides students with a broad overview of the principles and practices of aerospace engineering. The course is designed to provide a solid foundation for students who are interested in pursuing a career in the aerospace industry, as well as for those who are interested in further study in aerospace engineering.

The course typically covers topics such as:

1. Aerodynamics: the study of the behavior of fluids (especially air) when they interact with solid objects, including principles of lift and drag and the design of airfoils.

2. Propulsion: the study of the design and operation of engines, including turbojet, turbofan, and rocket engines, and principles of thrust and efficiency.

3. Flight mechanics: the study of the motion of aircraft and spacecraft, including principles of stability, control, and performance.

4. Materials and structures: the study of the properties and behavior of materials used in the construction of aircraft and spacecraft, including principles of stress and strain and the design of structural components.

5. Systems engineering: the study of the integration of all of the subsystems in an aerospace vehicle, including avionics, control systems, and communication systems.

By the end of the course, students should have a solid understanding of the fundamental principles of aerospace engineering and how they can be applied to the design, analysis, and operation of aerospace systems. They should also have the ability to apply their knowledge to solve engineering problems and evaluate the performance of aerospace systems.

Fundamentals of Aerospace Engineering is suitable for a variety of audiences who are interested in the principles and practices of aerospace engineering. These may include:

1. Undergraduate students: The course is typically offered at the undergraduate level and is often a required or elective course for students pursuing a degree in aerospace engineering. It provides a foundation for more advanced courses in the field.

2. Graduate students: The course can also be suitable for graduate students who are interested in pursuing a degree in aerospace engineering or a related field. It can provide a review of basic concepts and a foundation for more advanced courses.

3. Professionals: The course may also be of interest to professionals who are working in the aerospace industry and who would like to gain a deeper understanding of the fundamentals of aerospace engineering.

4. Enthusiasts: The course may also be of interest to individuals who have a general interest in aerospace engineering and would like to learn more about the field.

While some prior knowledge of physics, calculus, and mechanics may be helpful, the course is designed to be accessible to students from a variety of backgrounds and experience levels. The course may be particularly suitable for students who have a strong interest in science, technology, engineering, and mathematics (STEM) fields.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Chapter 2: The Scope

Lecture 1: The Scope of Engineering

Lecture 2: The Aerospace Industry

Lecture 3: Military Air Forces

Lecture 4: Infrastructures on Earth

Lecture 5: Aviation Research Agenda

Lecture 6: SESAR

Chapter 3: Generalities

Lecture 1: Classification of aerospace vehicles

Lecture 2: Rotorcraft

Lecture 3: Parts of The Aircraft

Lecture 4: Empennage

Lecture 5: Hypotheses

Lecture 6: System References

Chapter 4: Aerodynamics

Lecture 1: Aerodynamics

Lecture 2: Euler Equation

Lecture 3: Viscosity

Lecture 4: Speed of Sound

Lecture 5: Generation of Aerodynamic Forces

Lecture 6: Characteristic Curves

Lecture 7: Flow Over a Finite Wing

Lecture 8: High-Lift Devices

Chapter 5: Aircraft structures

Lecture 1: Aircraft structures

Lecture 2: Properties

Lecture 3: Materials in Aircraft

Lecture 4: Fuselage Loads

Lecture 5: Structural Elements and Functions of the Fuselage

Chapter 6: Aircraft instruments and systems

Lecture 1: Aircraft instruments and systems

Lecture 2: Sources of Data

Lecture 3: Power Plant Instruments

Lecture 4: Aircrafts’ Cockpits

Lecture 5: Fuel System

Lecture 6: Flight Control Systems Fly-By-Wire

Chapter 7: Aircraft propulsion

Lecture 1: Aircraft Propulsion

Lecture 2: The Jet Engine

Lecture 3: Compressor

Lecture 4: Turbine

Lecture 5: Turbofans

Chapter 8: Mechanics of flight

Lecture 1: Mechanics of flight

Lecture 2: Aircraft Equations of Motion

Lecture 3: Performances in Turn Maneuvers

Lecture 4: Range and Endurance

Lecture 5: Payload-Range Diagram

Lecture 6: Fundamentals of Control

Lecture 7: Longitudinal Stability and Control

Chapter 9: Air transportation

Lecture 1: Air transportation

Lecture 2: ICAO

Lecture 3: Chicagos’s convention

Lecture 4: The Market of Aircraft for Commercial Air Transportation

Lecture 5: Future Market of Aircraft

Lecture 6: Airlines’ Cost Strucutre

Lecture 7: Operational Costs

Lecture 8: Landing and air navigation fees

Lecture 9: Sources of Environmental Impact

Lecture 10: Aviation NOx Climate Impact

Chapter 10: Airports

Lecture 1: Airports

Lecture 2: The Demand of Air Transportation

Lecture 3: The Runway

Lecture 4: The Terminal

Lecture 5: Air Traffic Management (ATM) services

Lecture 6: Airport Navigational Aids

Chapter 11: Air navigation

Lecture 1: Air navigation

Lecture 2: History

Lecture 3: The International regulation (juridic) framework

Lecture 4: Air Traffic Management (ATM)

Lecture 5: ATS Routes

Lecture 6: Airspace Organization in Regions and Control Centers

Lecture 7: Navigation Charts

Lecture 8: Communication Systems

Lecture 9: Aeronautical mobile service

Lecture 10: Navigation Systems

Lecture 11: Radiotelemetry

Lecture 12: Global Navigation Satellite Systems (GNSS)

Lecture 13: Non-Directional Beacon (NDB)

Lecture 14: Surveillance Systems

Lecture 15: Automatic Dependent Surveillance-Broadcast (ADS-B)

Instructors

EasyShiksha Learning
e-learning

Rating Distribution

1 stars: 2 votes
2 stars: 2 votes
3 stars: 2 votes
4 stars: 6 votes
5 stars: 7 votes

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