Page:Aerial Flight - Volume 1 - Aerodynamics - Frederick Lanchester - 1906.djvu/17

Rh * § 81. Kinetic Energy. * 81. Kinetic Energy.
 * 82. Pressure Distribution. Fluid Tension as Hypothesis.
 * 83. Application of the Theorem of Energy.
 * 84. Energy of Superposed Systems.
 * 85. Example: Cyclic Superposition.
 * 86. Two opposite Cyclic Motions on Translation.
 * 87. Numerical Illustration.
 * 88. Fluid Pressure on a Body in Motion.
 * 89. Cases fall into Three Categories.
 * 90. Transverse Force Dependent on Cyclic Motion. Proof.
 * 91. Difficulty in the case of the Perfect Fluid.
 * 92. Superposed Rotation.
 * 93. Vortex Motion.
 * 94. Discontinuous Flow.
 * 95. Efflux of Liquids.
 * 96. The Borda Nozzle.
 * 97. Discontinuous Flow. Pressure on a Normal Plane.
 * 98. Deficiencies of the Eulerian Theory of the Perfect Fluid.
 * 99. Deficiencies of the Theory—continued. Stokes, Helmholtz.
 * 100. The Doctrine of Discontinuity attacked by Kelvin.
 * 101. Kelvin's Objections Discussed.
 * 102. Discussion on Controversy—continued.
 * 103. The Position Summarised.
 * 104. The Author's View.
 * 105. Discontinuity in a Viscous Fluid.
 * 106. Conclusions from Dimensional Theory.

[[Aerodynamics (Lanchester)/Chapter 4|

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§ 107. Wing Form. Arched Section.

108. Historical.

109. Dynamic Support.

110. In the Region of a Falling Plane. Up-current.

111. Dynamic Support Reconsidered.

112. Aerodynamic Support.

113. Aerodynamic Support—continued. Field of Force.

114. Flight with an Evanescant Load.

115. Aeroplane of Infinite Lateral Extent.

116. Interpretation of Theory of Aeroplane of Infinite Lateral Extent.

117. Departure from Hypothesis.

118. On the Sectional Form of the Aerofoil.

119. On the Plan-form of the Aerofoil: Aspect Ratio.

120. On Plan-form—continued. Form of Extremities.

121. Hydrodynamic Interpretation and Development.

122. Peripteroid Motion.

123. Energy in the Periptery.

124. Modified Systems.

125. Peripteroid Motion in a Simply-connected Region.

126. Peripteral Motion in a Real Fluid.

127. Peripteral Motion in a Real Fluid—continued.