A Bell technician works at Martin Plant, Denver. The Bell technician mates a Dyna-Soar skin panel and a honeycomb insulation to the test wires attached to the specimen.
Dyna-Soar airplane mockup at Martin Plant, Denver. A number of Dyna-Soar curved and flat surface skin blade test specimens mounted in a heat chamber. Dyna-Soar full scale mockup in a horizontal position inside Martin Plant. A pilot walks from tail booster to a Dyna-Soar airplane in the foreground. Views of the pilot and Dyna-Soar cockpit mockup simulating flight. The pilot uses controls and navigation aids.
Minneapolis-Honeywell controls for Dyna-Soar airplane mockup at Martin Plant, Denver. View of etched electronics circuit card with components mounted. Minneapolis-Honeywell miniature gyro components table being partially assembled to show the placement of components. Minneapolis-Honeywell inertial platform on a table. An engineer spins it on gimbal mounting.
Minneapolis-Honeywell engineers work on Dyna-Soar controls in the United States. Engineers at Minneapolis-Honeywell test accuracy of the digital gyro torquing-technique. A man operates a control console. An engineer sees through an eyepiece during the gyro-torquing test. View of inertial platform being tested.
Controls of Dyna-Soar full scale mockup in the United States. A man operates a Bendix keyboard unit on a table. View of numbers flashing in channel slots.
Scale model tests of proposed Boeing Dyna-Soar in the United States. Views of the earth showing the flight path of the Dyna-Soar and a launching at Cape Canaveral. A table-top model of Boeing proposed Dyna-Soar airborne vehicle with multi-stage rockets on a launch pad and gantry towers. A flight capsule and a crew accommodations display board and a scale model of proposed Boeing Dyna-Soar turning on a pedestal in the foreground. A drawing shows the proposed cockpit configuration for the Boeing Dyna-Soar vehicle. A man in a pressure suit seated in the cockpit of full scale mockup of the Boeing proposed Dyna-Soar. A drawing shows various stages of proposed capsule separation. Wind tunnel capsule separation test using scale models. Boeing Dyna-Soar wind tunnel model being held by a technician. The technician places the Boeing model in the Arnold engineering hot shot tunnel. Views of the model of Boeing Dyna-Soar under a bank of quartz lamps during a structural heat test. The model nose cone is heated by multi-gas jet device. A Boeing DS-1 model enters the wind tunnel. A drawing shows general arrangement of the DS-1 Dyna-Soar booster and glider. Full scale mockup of Boeing DS-1 glider mockup on display.