href="@public@vhost@g@gutenberg@html@files@45344@[email protected]#Fig65" class="pginternal" tag="{http://www.w3.org/1999/xhtml}a">65.
The aeroplane here shown is a mathematical paradox, |
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66. |
This shows fig. 65 with a section removed, |
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67. |
Diagram showing real path of a bird, |
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68. |
The De la Grange machine on the ground, |
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69. |
The De la Grange machine in full flight, |
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70. |
Farman’s machine in flight, |
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71. |
Bleriot’s machine, |
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72. |
Santos Dumont’s flying machine, |
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72a. |
Angles and degrees compared, |
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72b. |
Diagram showing direction of the air with a thick curved aeroplane, |
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72c. |
Aeroplanes experimented with by Mr. Horatio Philipps, |
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73. |
The enormous balloon “Ville de Paris,” |
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74. |
Photograph of a model of my machine, |
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75. |
The fabric-covered aeroplane experimented with, |
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76. |
The forward rudder of my large machine showing the fabric attached to the lower side, |
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77. |
View of the track used in my experiments, |
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78. |
The machine on the track tied up to the dynamometer, |
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79. |
Two dynagraphs, |
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80. |
The outrigger wheel that gave out and caused an accident with the machine, |
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81. |
Shows the broken planks and the wreck that they caused, |
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82. |
The condition of the machine after the accident, |
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83. |
This shows the screws damaged by the broken planks, |
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84. |
This shows a form of outrigger wheels which were ultimately used, |
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85. |
One pair of my compound engines, |
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86. |
Diagram showing the path that the air has to take in passing between superposed aeroplanes in close proximity to each other, |
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87. |
Position of narrow aeroplanes arranged so that the air has free passage between them, |
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public@vhost@g@gutenberg@html@files@45344@[email protected]#Fig88"
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