Applied Gyrodynamics - A 1932 book on gyroscopes and gyroscope based apperatus

X CONTENTS

ART. PAGE

§2. The Inactive Type of Gyro Ship Stabilizer

88. The Effect on the Motion of a Swinging Pendulum Produced by an

Attached Gyroscope, (a) When the Precession of the Gyro-Axle

is Opposed by a Frictional Torque 136

89. The Effect of a Spinning Gyroscope on the Rolling of a Ship 140

90. The Schlick Ship Stabilizer 142

91. The Fieux Ship Stabilizer 144

§3. The Active Type of Gyro Ship Stabilizer

92. The Effect on the Motion of a Swinging Pendulum Produced by an

Attached Gyroscope, (b) When the Gyro-Wheel is acted upon by

a Torque about an Axis Perpendicular to the Spin-Axis and the

Axis of Vibration of the Pendulum 146

93. The Sperry Ship Stabilizer 147

94. Operation of the Sperry Ship Stabilizer 149

95. The Braking System 151

96. Rolling of a Ship Produced by a Gyro 152

97. Admiral Taylor's Formula. Solved Problem 153

CHAPTER V

NAVIGATIONAL COMPASSES

§1. The Various Types

98. The Altitude and Azimuth Method of Locating the Geographic

Meridian 162

99. The Directive Tendency of a Magnetic Compass 165

100. The Deviations of a Magnetic Compass on an Iron Ship 166 101. The Deviation of a Magnetic Compass Produced by a Rapid Turn 168

102. The Earth Inductor Compass 169

103. The Magneto Compass 169

104. The Sun Compass 170 105. The Apparent Motion of the Spin-Axle of an Unconstrained

Gyroscope Due to the Rotation of the Earth 172

106. The Meridian-Seeking Tendency of a Pendulous Gyroscope 173 107. The Meridian-Seeking Tendency of a Liquid-Controlled Non

Pendulous Gyroscope 176

108. Making a Gyroscope into a Gyro-Compass 177

109. The Meridian-Seeking Torque Acting on a Gyro-Compass 178

§2. The Natural Errors to Which the Gyro-Compass is Subject

110. The Latitude Error 182 111. The Error Due to the Velocity of the Ship. The Meridian-Steam

ing Error 182 112. The Deflection of the Axle of a Gyro-Compass Produced by

Acceleration of the Ship's Velocity 184 113. The Period of a Gyro-Compass that will have Zero Ballistic Deflec

tion Error when at a Particular Latitude 186

114. The Ballistic Damping Error 190

CONTENTS Xi

ART. PAGE

115. The Compass Error Due to Rolling of the Ship when on an Inter

cardinal Course. The Quadrantal or Rolling Error 191 116. Quadrantal Deflection Due to Lack of Symmetry of the Sensitive

Element 195

117. The Suppression of the Quadrantal Error 195

118. The Degree of Precision of Gyro-Compasses 196

§3. The Sperry Gyro-Compass

119. The Principal Parts of the Master Compass 198

120. The Follow-Up System 202

121. The Method of Damping 203 122. The Magnitude of the Latitude Error for which Correction Must

Be made in the Sperry Gyro-Compass 205

123. Correction Mechanism for Velocity and Latitude Errors 206

124. Avoidance of the Ballistic Deflection Error 210

125. The Automatic Ballistic Damping Error Eliminator 212

126. Avoidance of the Quadrantal or Rolling Error 212

127. The Repeater System 213

§4. The Brown Gyro-Compass

128. Production of the Meridian-Seeking Torque 215

129. The Method of Damping 218

130. Absence of Latitude Error 220

131. The Meridian-Steaming Error 220

132. The Repeater System 221

133. The Ballistic Deflection Error 222

134. Prevention of the Quadrantal or Rolling Error 222

§5. The Anschutz Gyro-Compass

135. The Sensitive Element of the Model of 1926 224

136. The Supporting System 227

137. Damping 228

138. The Meridian-Steaming Error 231

139. Prevention of the Ballistic Deflection Error 231

140. Avoidance of the Quadrantal or Rolling Error 232

141. The Follow-Up Repeater System 234

§6. The Arma Gyro-Compass

142. The Sensitive Element 236

143. The Follow-Up System 238

144. The Course and Speed Error Corrector 241

145. Prevention of the Ballistic Deflection Error 244

146. Avoidance of the Ballistic Damping Error 246

147. Avoidance of the Quadrantal or Rolling Error 247

§7. The Florentia Gyro-Compass

148. Arrangement of the Principal Parts of the Master Compass 247

149. The Follow-Up System 248