Flight without formulae: how and why an aeroplane flies explained in simple language, by A. C. Kermode.
Material type:
TextSeries: ANew Delhi, Pearson education, 1970Edition: Fourth editionDescription: xiii, 300 pages : illustrations ; 19 cmContent type: - text
- unmediated
- volume
- 0273416804
- 629.132 K.A.F 21
- TL546.7 .K45 1970
| Item type | Current library | Collection | Call number | Copy number | Status | Date due | Barcode | |
|---|---|---|---|---|---|---|---|---|
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Main library B4 | Faculty of Engineering & Technology (Structural) | 629.132 K.A.F (Browse shelf(Opens below)) | 1 | Checked out | 03/06/2024 | 00005551 |
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| 629.13 K.M.A Aircraft basic science / | 629.132 F.A.F Flight performance of fixed and rotary wing aircraft / | 629.132 F.A.F Flight performance of fixed and rotary wing aircraft / | 629.132 K.A.F Flight without formulae: how and why an aeroplane flies explained in simple language, | 629.132 K.A.M Mechanics of flight / | 629.132 N.M.T تحليل الإجهادات في إنشاءات الطائرات / | 629.1323 A. Aerodynamics for engineering students / |
1 The argument --
2 What is an aeroplane? --
3 Lighter than air --
4 Lighter than air --
more problems --
5 The atmosphere --
6 Lift and drag --
7 Air speed and ground speed --
8 Direction relative to the air and relative to the air and relative to the ground --
9 Wind tunnels --
10 Smoke tunnels --
11 Air and water --
12 Centre of pressure --
13 Stability and instability --
14 The wing section --
15 Air flow over a wing section --
16 Pressure distribution round a wing section --
17 The venturi tube --
18 Why the centre of pressure moves --
19 Stalling or burbling --
20 Lift and drag again --
21 Effects of spted --
22 Effects of size --
23 Effects of air density --
24 Lift/drag ratio --
25 Analysis of drag --
26 Induced drag --
27 Parasite drag --
28 Form drag --
29 Skin friction --
30 The boundary layer --
31 Shape of win section --
32 Variable camber --
33 Slots, slats and flaps --
34 Aspects ratio --
35 Biplanes 36 Lift and drag-a summary --
37 Straight and level flight --
38 The four forces --
39 Thrust --
40 Jet propulsion --
41 Propeller propulsion --
42 Rocket propulsion --
43 Balance of aeroplane --
44 The tail plan --
45 Stability of aeroplane --
46 Degrees of stability --
47 Rolling, pitching, and yawing --
48 Longitudinal stability --
49 Lateral stability --
50 Directional stability --
51 Directional and lateral --
52 Control --
53 Longitudinal control --
54 Lateral control --
55 Directional control --
56 Balanced controls --
57 Control tabs --
58 Control at low speeds --
59 Control at high speeds --
60 Level flight-the speed range --
61 Economical flying --
62 Flying at low speeds --
63 Stalling --
64 Landing --
65 Reduction of landing speed --
66 Wing loading --
67 S.T.O.L. and V.T.O.L. --
68 Gliding --
69 Climbing --
70 Turning 71 Nose-diving --
72 Taxying --
73 Taking off --
74 Aerobatics --
75 The propeller --
76 Multi-engined aeroplanes --
77 Flying faults --
78 Instruments --
79 The air-speed indicator --
80 The altimeter --
81 Navigation instruments --
82 Flight instruments --
83 High-speed flight --
84 The speed of sound --
85 Much numbers --
86 Flight at transonic speeds --
87 Shock waves --
88 The shock stall --
89 Wave drag --
90 Sweep back --
91 Vortex generators --
92 Wing and body shapes --
93 Through the barrier-and beyond --
94 Supersonic flow --
95 Supersonic shapes --
96 Sonic bangs --
97 Other problems of supersonic flight --
98 The future --
99 Into space --
100 Happy landings!.
This text is suitable for trainee pilots and all aeronautical engineering and aviation courses from NC/D to postgraduate. Explains the principles of flight in an simple yet informative way, without the need for complex mathematical formulae
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