sc VTU B.TECH Aeronautical-Engineering 2nd year SEMESTER – VII Syllabus For Flight vehicle design PDF 2022 – Cynohub

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VTU B.TECH Aeronautical-Engineering 2nd year SEMESTER – VII Syllabus For Flight vehicle design PDF 2022

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VTU B.TECH Aeronautical-Engineering 2nd year SEMESTER – VII Syllabus For Flight vehicle design PDF 2022

Get Complete Lecture Notes for Flight vehicle design on Cynohub APP

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You will be able to find information about Flight vehicle design along with its Course Objectives and Course outcomes and also a list of textbook and reference books in this blog.You will get to learn a lot of new stuff and resolve a lot of questions you may have regarding Flight vehicle design after reading this blog. Flight vehicle design has 5 units altogether and you will be able to find notes for every unit on the CynoHub app. Flight vehicle design can be learnt easily as long as you have a well planned study schedule and practice all the previous question papers, which are also available on the CynoHub app.

All of the Topic and subtopics related to Flight vehicle design are mentioned below in detail. If you are having a hard time understanding Flight vehicle design or any other Engineering Subject of any semester or year then please watch the video lectures on the official CynoHub app as it has detailed explanations of each and every topic making your engineering experience easy and fun.

Flight vehicle design Unit One

Module-1

Overview of Design Process: Introduction, Requirements, Phases of design, Conceptual Design Process, Initial Sizing, Take-off weight build up, Empty weight estimation, Fuel fraction estimation, Take- off weight calculation. Thrust to Weight Ratio & Wing Loading: Thrust to Weight Definitions, Statistical Estimate of T/W. Thrust matching, Spread sheet in design, Wing Loading and its effect on Stall speed, Take-off Distance, Catapult take-off, and Landing Distance. Wing Loading for Cruise, Loiter, Endurance, Instantaneous Turn rate, Sustained Turn rate, Climb, & Glide, Maximum ceiling.

Flight vehicle design Unit Two

Module-2

Configuration Layout & loft: Conic Lofting, Conic Fuselage Development, Conic Shape Parameter, Wing-Tail Layout & Loft. Aerofoil Linear Interpolation. Aerofoil Flat-wrap Interpolation. Wing aerofoil layout-flap wrap. Wetted area determination. Special considerations in Configuration Layout: Aerodynamic, Structural, Detectability. Crew station, Passenger, and Payload arrangements. Design of Structural Components: Fuselage, Wing, Horizontal & Vertical Tail. Spreadsheet for fuselage design. Tail arrangements, Horizontal & Vertical Tail Sizing. Tail Placement. Loads on Structure. V-n Diagram, Gust Envelope. Loads distribution, Shear and Bending Moment analysis.

Get Complete Lecture Notes for Flight vehicle design on Cynohub APP

Download the APP Now! ( Click Here )

Flight vehicle design Unit Three

Engine Selection & Flight Vehicle Performance

Turbojet Engine Sizing, Installed Thrust Correction, Spread Sheet for Turbojet Engine Sizing. Propeller Propulsive System. Propeller design for cruise. Take-off, Landing & Enhanced Lift Devices :- Ground Roll, Rotation, Transition, Climb, Balanced Field Length, Landing Approach, Braking, Spread Sheet for Take-off and Landing. Enhanced lift design -Passive & Active. Spread Sheet.

Flight vehicle design Unit Four

Static Stability & Control

Longitudinal Static Stability, Pitch Trim Equation. Effect of Airframe components on Static Stability. Lateral stability. Contribution of Airframe components. Directional Static stability. Contribution of Airframecomponents. Aileron Sizing, Rudder Sizing. Spread Sheets. Flying qualities. Cooper Harper Scale. Environmental constraints, Aerodynamic requirements.

Flight vehicle design Unit Five

Design Aspects of Subsystems

Flight Control system, Landing Gear and subsystem, Propulsion and Fuel System Integration, Air Pressurization and Air Conditioning System, Electrical & Avionic Systems, Structural loads, Safety constraints, Material selection criteria.

Flight vehicle design Course Objectives

Comprehend the flight vehicle design process. •Acquire the knowledge of vehicle configuration and structural components. •Understand the stability & control and subsystems.

Flight vehicle design Course Outcomes

At the end of the course the student will be able to:1.CO1: Calculate the thrust to weight ratio and wing loading. 2.CO2: Compute the flight vehicle performance. 3.CO3: Select the subsystems as per vehicle design.

Flight vehicle design Text Books

Aircraft Design – A Conceptual Approach-Daniel P. Raymer
Design of Aircraft-Thomas C Corke

Flight vehicle design Reference Books

Aeroplane Design-J Roskam
Introduction to Aircraft Design-John
Fielding
Standard Handbook for Aeronautical & Astronautical Engineers-Editor Mark Davies

Scoring Marks in Flight vehicle design

Scoring a really good grade in Flight vehicle design is a difficult task indeed and CynoHub is here to help!. Please watch the video below and find out how to get 1st rank in your B.tech examinations . This video will also inform students on how to score high grades in Flight vehicle design . There are a lot of reasons for getting a bad score in your Flight vehicle design exam and this video will help you rectify your mistakes and help you improve your grades.

Information about VTU B.Tech Flight vehicle design was provided in detail in this article. To know more about the syllabus of other Engineering Subjects of JNTUH check out the official CynoHub application. Click below to download the CynoHub application.

Get Complete Lecture Notes for Flight vehicle design on Cynohub APP

Download the APP Now! ( Click Here )

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