NSSDCA ID: VAGSL5
Vanguard Satellite Launching Vehicle 5 (SLV-5) was designed to place two satellites in orbit, a 33 cm (13 inch) diameter sphere (Sphere A) equipped with a magnetometer, and a 76 cm (30 inch) diameter aluminum-coated inflatable sphere (Sphere B), containing no instrumentation, for optical tracking. Launched in April 1959, the mission failed when the second stage failed to operate following first-stage separation. The satellites and third stage tumbled into the Atlantic Ocean several hundred kilometers off the coast after about 500 seconds of flight.
The primary objective of the Magnetic Field Satellite (Sphere A) was to determine the source of magnetic storms - to determine if they occur due to electric currents in the ionosphere or from currents at much greater distances. A secondary objective was to obtain data on the daily cycle of magnetic field variations, thus providing a highly accurate map of the Earth's main magnetic field in certain regions of space. The Sub-Satellite (Sphere B) objective was to provide data on air density in the outer limits of the Earth's atmosphere. A later version of the Magnetic Field Satellite was successfully launched as Vanguard 3 (1959 Eta).
Vanguard SLV-5 was launched from Cape Canaveral, Florida, at 02:49 UT on 14 April 1959 (9:49 p.m. EST, 13 April). At separation of the first stage 142.0 seconds after launch, pitch-attitude control of the second stage was lost due to large side forces acting on the second stage exhaust nozzle caused by back pressure built up in the interstage compartment. The third stage and satellites were thrown from the tumbling second stage. The satellite continued to transmit for about 500 seconds after launch until falling into the Atlantic Ocean several hundred km off the Florida coast.
The Magnetic Field Satellite was a 33 cm (13 inch) diameter fiberglass sphere with a 6.2 cm (2.44 inch) diameter fiberglass cylindrical boom protruding 43.8 cm (17.25 inches) from the top, and a 7.0 cm (2.75 inch) diameter magnesium cylinder protruding 4.1 cm (1.63 inches) from the base. Four 59.7 cm (23.5 inch) spring-actuated antennas were mounted to the satellites equator, equally spaced. Each antennas was 0.95 cm (0.38 inches) in diameter at the base and 0.64 (.25 inches) at the tip. The interior of the satellite held a cylindrical magnesium container with two pressure-tight compartments. The lower compartment held the batteries, and the upper compartment held the magnetometer electronics, an 80 milliwatt telemetry transmitter operating at 108.3 MHz, a 10 milliwatt Minitrack beacon transmitter at 108.00 MHz, and a command receiver.
The magnetometer was a proton precessional magnetometer. The magnetometer sensing unit was mounted in the outer end of the fiberglass boom. The design of the satellite required non-magnetic materials, including special batteries.
The Sub-Satellite was stored, uninflated, in a fiberglass container beneath the Magnetic Field Satellite, along with a small tank containing nitrogen at a pressure of 1400 psi. On separation of the Magnetic Field Satellite, a preset latch would release the gas into the Sub-Satellite, inflating it and pushing it free of the spent third stage. Upon inflation, the Sub-Satellite would be a 76.2 cm (30 inch) diameter aluminum-coated mylar balloon. It contained no instrumentation and was designed to be optically tracked from Earth to provide data on the density of the upper atmosphere by measuring its effect on the satellite orbit.
Vanguard was the designation used for both the launch vehicle and the satellite. The first stage of the three-stage Vanguard Test vehicle was powered by a GE X-405 28,000 pound (~125,000 N) thrust liquid rocket engine, propelled by 7200 kg of kerosene (RP-1) and liquid oxygen, with helium pressurant. It also held 152 kg of hydrogen peroxide. It was finless, 13.4 m (44 ft.) tall, 1.14 m (45 in.) in diameter, and had a launch mass of approximately 8090 kg (17,800 lbs. wt.).
The second stage was a 5.8 m (19 ft.) high, 0.8 m (31.5 in.) diameter Aerojet-General AJ-10 liquid engine burning 1520 kg (3350 lbs) Unsymmetrical Dimethylhydrazine (UDMH) and White Inhibited Fuming Nitric Acid (WIFNA) with a helium pressurant tank. It produced a thrust of 7340 pounds (~32,600 N) and had a launch mass of approximately 1990 kg (4390 lbs. wt.). This stage contained the complete guidance and control system.
A solid-propellant rocket with 2350 pounds (~ 10,400 N) of thrust (for 30 seconds burn time) was developed by the Grand Central Rocket Co. to satisfy third-stage requirements. The stage was 1.5 m (60 in.) high, 0.8 m (31.5 in.) in diameter, and had a launch mass of 194 kg (428 lbs.). The thin (0.076 cm, 0.03 in.) steel casing for the third stage had a hemispherical forward dome with a shaft at the center to support the satellite and an aft dome fairing into a steel exit nozzle.
The total height of the vehicle with the satellite fairing was about 21.9 meters (72 feet). The payload capacity was 11.3 kg (25 lbs.) to a 555 km (345 mi.) Earth orbit. A nominal launch would have the first stage firing for 144 seconds, bringing the rocket to an altitude of 58 km (36 mi), followed by the second stage burn of 120 seconds to 480 km (300 mi), whereupon the third stage would bring the satellite to orbit. This was the same launch vehicle configuration, with minor modifications, as used for Vanguard TV-3 and all succeeding Vanguard flights up to and including Vanguard SLV-6.
Launch Date: 1959-04-14
Launch Vehicle: Vanguard
Launch Site: Cape Canaveral, United States
Mass: 10.3 kg
Questions and comments about this spacecraft can be directed to: Dr. David R. Williams
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