![]() ![]() The rover will characterize the planet's geology and past climate, pave the way for human exploration of the Red Planet, and be the first mission to collect and cache Martian rock and regolith (broken rock and dust). The camera looks down into the top of a sample tube to take close-up pictures of the sampled material and the tube as it's prepared for sealing and storage.Ī key objective for Perseverance's mission on Mars is astrobiology, including the search for signs of ancient microbial life. The image was taken by Perseverance's Sampling and Caching System Camera, or CacheCam, located inside the rover underbelly. The image shows the bottom of the Otis Peak core, which was collected from a conglomerate rock called "Emerald Lake." The distinctly colored areas are individual minerals (or rock fragments) transported by the river that once flowed into Mars' Jezero Crater. Approximately 6300 employees and on-site subcontractors at a 168-acre facility in the foothills of the San Gabriel Mountains near Pasadena, California.NASA's Perseverance Mars rover captured this image of a rock core nicknamed "Otis Peak" on June 12, 2023, the 822nd day, or sol, of the mission.Annual budget for fiscal year 2021 $2.4 billion.Operates the NASA Deep Space Network, enabling navigation and data return throughout the solar system.JPL also applies its capabilities to national security in areas synergistic with its work for NASA, and develops technologies for uses on Earth in fields from public safety to medicine, capitalizing on NASA’s investment in space technology.The Laboratory’s core capability is to integrate science, engineering and technology that provide end-to end implementation of space missions, through either use of its in-house experienced workforce or in collaborations with industry and academia.Developing technology projects such as advanced atmosphere entry systems, advanced detectors for a wide variety of airborne and spaceborne instruments, laser communications, cubesat-based investigations, and robotic technologies for both autonomous operation and use by human explorers.Led development of space-based infrared astronomy with such missions as the Infrared Astronomical Satellite, the Spitzer Space Telescope, and the Mid-Infrared Instrument on the James Webb Space Telescope.In Earth science, pioneered radar scatterometry for ocean surface wind measurements, radar altimetry for sea surface height, synthetic aperture radar for natural hazard and solid earth applications, gravity measurements to characterize Earth’s cryosphere and water cycle, and a number of spectrometer advances for atmospheric sounding and land surface measurements.Designed, built and operated all five of the successful rovers sent so far to the surface of Mars.Developed and operated the first rotorcraft ever sent to another planet.Explored all the solar system’s planets, from Mercury to Neptune.Explorer 1 produced the first-ever scientific result from space: the discovery of the Van Allen Radiation Belts. Designed, built, and operated the United States’ first satellite, Explorer 1, launched in 1958.And the giant dish antennas of NASA’s Deep Space Network – built and managed by JPL – send and receive data from nearly all spacecraft traveling beyond the Moon. In fact, the image sensors used in modern digital cameras, including your smartphone’s, were developed at JPL, too.Ĭloser to home, JPL spacecraft, science instruments, and airborne missions help humanity study and track climate change, manage natural resources, and respond to disasters. JPL helped build and manages one of the four cameras aboard the James Webb Space Telescope. It was a camera on Voyager 1 that captured the pale blue dot of Earth from 3.7 billion miles away and corrective optics engineered by JPL that brought the Hubble Space Telescope into focus. Our missions honor the relentless pursuit of the seeker: Voyager, Curiosity, Cassini, Galileo. Our spacecraft have flown to every planet in the solar system, the Sun, and into interstellar space in a quest to better understand the origins of the universe, and of life. The success of JPL’s first spacecraft, the Explorer I satellite, in 1958 helped lift America into the Space Age. ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |