A satellite intended to improve weather forecasting and an experimental inflatable heat shield to protect spacecraft entering atmospheres were launched into space from California on Thursday.
A United Launch Alliance Atlas V rocket carrying the Joint Polar Satellite System-2 satellite and the NASA test payload lifted off at 1:49 a.m. from Vandenberg Space Force Base, northwest of Los Angeles.
Developed for the National Oceanic and Atmospheric Administration, JPSS-2 was placed into an orbit that circles the Earth from pole to pole, joining previously launched satellites in a system designed to improve weather forecasting and climate monitoring.
NASA said there was no immediate data confirming deployment of the satellite’s electricity-producing solar array, but late in the day the space agency announced that it was fully extended.
“The operations team will continue to evaluate an earlier solar array deployment issue, but at this time, the satellite is healthy and operating as expected. The team has resumed normal activities for the JPSS-2 mission,” a NASA statement said.
The array has five panels that were collapsed in an accordion fold for launch. The fully deployed array extends 30 feet (9.1 meters).
Mission officials say the satellite represents the latest technology and will increase precision of observations of the atmosphere, oceans and land.
After releasing the satellite, the rocket’s upper stage reignited to position the test payload for re-entry into Earth’s atmosphere and descent into the Pacific Ocean.
Called LOFTID, short for Low-Earth Orbit Flight Test of an Inflatable Decelerator, the device is an “aeroshell” that could be used to slow and protect heavy spacecraft descending into atmospheres, such as those of Mars or Venus, or payloads returning to Earth.
According to NASA, effectively slowing heavy spacecraft will require greater atmospheric drag than can be created by traditional rigid heat shields that fit within the shrouds that surround payloads aboard rockets.
The LOFTID shield inflates to about 20 feet (6 meters) in diameter.
In the thin atmosphere of Mars, for example, having such a large shield would begin slowing the vehicle at higher altitudes and reduce the intensity of heating, according to the space agency.
READ ALSO: