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Curiosity Navigation Curiosity Home Mission Overview Where is Curiosity? Mission Updates Science Overview Instruments Highlights Exploration Goals News and Features Multimedia Curiosity Raw Images Images Videos Audio More Resources Mars Missions Mars Sample Return Mars Perseverance Rover Mars Curiosity Rover MAVEN Mars Reconnaissance Orbiter Mars Odyssey More Mars Missions The Solar System The Sun Mercury Venus Earth The Moon Mars Jupiter Saturn Uranus Neptune Pluto & Dwarf Planets Asteroids, Comets & Meteors The Kuiper Belt The Oort Cloud 5 min read
Sols 4304-4006: 12 Years, 42 Drill Holes, and Now… 1 Million ChemCam Shots!
In celebration of ChemCam’s milestone, here is a stunning image from its remote micro imager, showing details in the landscape far away. This image was taken by Chemistry & Camera (ChemCam) onboard NASA’s Mars rover Curiosity on Sol 4302 — Martian day 4,302 of the Mars Science Laboratory mission — on Sept. 12, 2024, at 09:20:51 UTC. NASA/JPL-Caltech Earth planning date: Friday, Sept. 13, 2024
Today, I need to talk about ChemCam, our laser and imaging instrument on the top of Curiosity’s mast. It one of the instruments in the “head” that gives Curiosity that cute look as if it were looking around tilting its head down to the rocks at the rover’s wheels. On Monday, 19th August the ChemCam team at CNES in France planned the 1 millionth shot and Curiosity executed it on the target Royce Lake on sol 4281 on Mars. Even as an Earth scientist used to really big numbers, this is a huge number that took me a while to fully comprehend. 1 000 000 shots! Congratulations, ChemCam, our champion for getting chemistry from a distance – and high-resolution images, too. If you are now curious how Curiosity’s ChemCam instrument works, here is the NASA fact sheet. And, of course, the team is celebrating, which is expressed by those two press releases, one from CNES in France and one from Los Alamos National Laboratory, the two institutions who collaborated to develop and build ChemCam and are now running the instrument for over 12 years! And the PI, Dr Nina Lanza from Los Alamos informs me that the first milestone – 10000 shots was reached as early as Sol 42, which was the sol the DAN instrument used its active mode for the first time. But before I am getting melancholic, let’s talk about today’s plan!
The drive ended fairly high up in the terrain, and that means we see a lot of the interesting features in the channel and generally around us. So, we are on a spot a human hiker would probably put the backpack down, take the water bottle out and sit down with a snack to enjoy the view from a nice high point in the landscape. Well, no such pleasures for Curiosity – and I am pretty sure sugar, which we humans love so much, wouldn’t be appreciated by rover gears anyway. So, let’s just take in the views! And that keeps Mastcam busy taking full advantage of our current vantage point. We have a terrain with lots of variety in front of us, blocks, boulders, flatter areas and the walls are layered, beautiful geology. Overall there are 11 Mastcam observations in the plan adding up to just about 100 individual frames, not counting those taken in the context of atmospheric observations, which are of course also in the plan. The biggest mosaics are on the targets “Western Deposit,” “Balloon Dome,” and “Coral Meadow.” Some smaller documentation images are on the targets “Wales Lake,” “Gnat Meadow,” and “Pig Chute.”
ChemCam didn’t have long to dwell on its milestone, as it’s busy again today. Of course, it will join Mastcam in taking advantage of our vantage point, taking three remote micro imager images on the landscape around us. LIBS chemistry investigations are targeting “Wales Lake,” “Gnat Meadow,” and “Pig Chute.” APXS is investigating two targets, “College Rock” and “Wales Lake,” which will also come with MAHLI documentation. With all those investigations together, we’ll be able to document the chemistry of many targets around us. There is such a rich variety of dark and light toned rocks, and with so much variety everywhere, it’s hard to choose and the team is excited about the three targeted sols … and planning over 4 hours of science over the weekend!
The next drive is planned to go to an area where there is a step in the landscape. Geologists love those steps as they give insights into the layers below the immediate surface. If you have read the word ‘outcrop’ here, then that’s what that means: access to below the surface. But there are also other interesting features in the area, hence we will certainly have an interesting workspace to look at! But getting there will not be easy as the terrain is very complex, so we cannot do it in just one drive. I think there is a rule of thumb here: the more excited the geo-team gets, the more skills our drivers need. Geologists just love rocks, but of course, no one likes driving offroad in a really rocky terrain – no roads on Mars. And right now, our excellent engineers have an extra complication to think about: they need to take extra care where and how to park so Curiosity can actually communicate with Earth. Why? Well, we are in a canyon, and those of you liking to hike, know what canyons mean for cell phone signals… yes, there isn’t much coverage, and that’s the same for Curiosity’s antenna. This new NASA video has more information and insights into the planning room, too! So, we’ll drive halfway to where we want to be but I am sure there will be interesting targets in the new workspace, the area is just so, so complex, fascinating and rich!
And that’s after Mars for you, after 12 years, 42 drill holes, and now 1 Million ChemCam shots. Go Curiosity go!!!
Written by Susanne Schwenzer, Planetary Geologist at The Open University
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Last Updated Sep 13, 2024 Related Terms
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By European Space Agency
Video: 00:02:27 The first launch of Ariane 6 is a collective success for all of Europe. First flights are no easy thing, but Europe now has a heavy-lift rocket able to launch any mission into any orbit. From Earth observation satellites that monitor our changing climate, predict the weather and assist emergency responders during disasters; to communication and navigation systems that keep Europeans in touch and in the right place; to deep space telescopes and explorers expanding our understanding of the Universe and our place within it – Ariane 6 has restored Europe’s autonomous access to space.
“Thank you, not only to the ESA team but everyone around Europe who contributed to this moment in history,” said Tony Tolker-Nielsen, ESA’s Director of Space Transportation, the day after Ariane 6’s first flight. “This is a major industrial project, with contributions from 13 countries and hundreds of companies. Like a symphonic orchestra, all instruments are vital to play the perfect music”.
Ariane 6 launched on 9 July 2024 from Europe's Spaceport in French Guiana at 16:00 local time (20:00 BST, 21:00 CEST). Europe’s newest heavy-lift rocket, it is designed to provide great power and flexibility at a lower cost than its predecessors. The launcher’s configuration – with an upgraded main stage, a choice of either two or four powerful boosters and a new restartable upper stage – will provide Europe with greater efficiency and possibility as it can launch multiple missions into different orbits on a single flight, while its upper stage will deorbit itself at the end of mission.
Find more videos from Space Team Europe.
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By NASA
From pioneering space initiatives to championing diversity and innovation, Shirley Holland-Hunt’s multifaceted leadership at NASA exemplifies the future of aerospace exploration. Her efforts have driven technological advancements and advocated for the inclusion of women and minorities in STEM fields.
Holland-Hunt currently serves as the associate division chief for Houston’s Johnson Space Center Aeroscience and Flight Mechanics Division, where she drives engineering design, development, testing, and evaluation for all phases of space flight.
She supports the identification and establishment of center partnerships and Space Act Agreements that drive the research and development of new space exploration technology. Holland-Hunt also coordinates business activities and workforce development, including planning, programming, budgeting, and execution, as well as facility management and Johnson’s diversity, equity, inclusion, and accessibility initiatives.
Holland-Hunt was a member of the Dare | Unite | Explore team that launched the “Propel the Space Economy Coalition” initiative, which supports the sustainable growth of the global space economy.
Official portrait of Shirley Holland-Hunt. Credit: NASA/James Blair As an alumna of Prairie View A&M University, a Historically Black College and University, Holland-Hunt holds a bachelor of science in Electrical Engineering and a Master of Business Administration from the University of Phoenix. She helped develop Johnson’s first Request for Information document, showcasing her pivotal role in advancing the center’s initiatives to collect data that inform future procurement actions.
She also spearheaded initiatives to promote women in leadership roles. She founded the networking group “The Women of ES” within the Structural Engineering Division to help women leaders seek opportunities and gain promotions. Additionally, she launched “The Women of EG” within the Aeroscience and Flight Mechanics Division, which conducts outreach to schools to encourage girls to pursue STEM careers.
“Each division leaves its own footprint,” she said. “Sometimes you need those small entities within a culture because the issues are different, the people are different. It’s so fulfilling to be a part of these outreach activities and see the outcome.”
Shirley Holland-Hunt leads a discussion at a STEM outreach event for Brownsville Independent School District. Holland-Hunt emphasizes the importance of persistence and continuous learning in your career. “Every little thing that you do or contribute to is huge. You might not see the results right away, but there is an outcome.”
She motivates students interested in pursuing space exploration careers to recognize their skills, know their worth, and work hard. “Strive to do your best daily but know that things are going to happen. Just be the best you can be.”
One of her core beliefs is to treat others with respect and acknowledge that diversity of thought is a strength. “Different means that somebody has a different way of thinking than you do, and that is a plus.”
Shirley Holland-Hunt at a NASA Pathways internship outreach event at Prairie View A&M University. Holland-Hunt is also involved in a discovery program at her church, educating young girls about careers in STEM and supporting minority students pursuing graduate programs in those fields. She recalls teachers doubting her potential to become an engineer. “I don’t want another little girl to hear that she can’t be something that she wants to be,” she said.
Her advice to women is to embrace new challenges without fear. “Learn and grow in everything you do. Don’t be afraid to move around in your career. You don’t need to have 100% of the skills to do it,” said Holland-Hunt. “Networking is also important—get to know people who can make a positive impact on your life.”
Shirley Holland-Hunt at a Texas Independent School District STEM outreach event in Galveston. Reflecting on her career, Holland-Hunt shares, “I started at NASA in a technical field but learned later that I have a passion for people, which was shocking because I always thought I was shy and an introvert. Now, I have a passion for seeing people grow and giving back in any way I can.”
Holland-Hunt worked in flight software and avionics for the Space Shuttle Program, which she said was her favorite program to work on at NASA. “When the program ended, I had to figure out how to use my background at Johnson for future capabilities,” she said. “That is the great part of working at NASA; there are many opportunities that bring together a range of people and perspectives to foster innovation.”
Holland-Hunt’s previous role managing a materials and processing group helped overcome her initial fear that her technical knowledge would hinder her ability to manage people. “I empowered everyone in that group with the respect I had for their work. They could teach me, and we trusted and learned from each other,” she said. “I know that I’m working with the best engineers in the world, and I learn so much from everyone that I work with.”
She believes that challenging herself and moving to different programs has revealed her hidden strengths and talents. “Knowing yourself is very important to be successful.”
Shirley Holland-Hunt in front of NASA’s Space Exploration Vehicle at Johnson Space Center in Houston. Holland-Hunt is also a member of the Ensemble Theatre in Houston, Texas, which aims to preserve African American artistic expression. She and her husband enjoy attending car shows and driving her 1972 Pontiac GTO.
Coming from a large family of eight, with a father who was a sharecropper, Holland-Hunt helped her family pick cotton. Despite her parents not graduating from junior high school, she and her eight siblings graduated from college, with five becoming engineers. Her husband also works for Axiom Space, one of the agency’s commercial space partners.
Holland-Hunt believes that experiencing adversity at a young age developed her character. “My parents always told me to be the best we can be and to love ourselves. That made us feel special and empowered me to do great things,” she said. “We never got new books, but we never saw it as a reason not to learn or excel. It teaches you to work with what you have. Now, when challenges come, I think, ‘That’s nothing. I’ve lived through worse.’”
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By NASA
4 min read
What Are Hubble and Webb Observing Right Now? NASA Tool Has the Answer
It’s not hard to find out what NASA’s Hubble and James Webb space telescopes have observed in the past. Barely a week goes by without news of a cosmic discovery made possible using images, spectra, and other data captured by NASA’s prolific astronomical observatories.
But what are Hubble and Webb looking at right this minute? A shadowy pillar harboring nascent stars? A pair of colliding galaxies? The atmosphere of a distant planet? Galactic light, stretched and distorted on a 13-billion-year journey across space?
NASA’s Space Telescope Live, a web application originally developed in 2016 to deliver real-time updates on Hubble targets, now affords easy access to up-to-date information on current, past, and upcoming observations from both Hubble and Webb.
Designed and developed for NASA by the Space Telescope Science Institute in Baltimore, this exploratory tool offers the public a straightforward and engaging way to learn more about how astronomical investigations are carried out.
With its redesigned user interface and expanded functionality, users can find out not only what planet, star, nebula, galaxy, or region of deep space each telescope is observing at the moment, but also where exactly these targets are in the sky; what scientific instruments are being used to capture the images, spectra, and other data; precisely when and how long the observations are scheduled to occur; the status of the observation; who is leading the research; and most importantly, what the scientists are trying to find out.
Information for observations from approved science programs is available via the Mikulski Archive for Space Telescopes. NASA’s Space Telescope Live offers easy access to this information – not only the current day’s targets, but the entire catalog of past observations as well – with Webb records dating back to its first commissioning targets in January 2022, and Hubble records all the way back to the beginning of its operations in May 1990.
The zoomable sky map centered on the target’s location was developed using the Aladin Sky Atlas, with imagery from ground-based telescopes to provide context for the observation. (Because the Hubble and Webb data must go through preliminary processing, and in many cases preliminary analysis, before being released to the public and astronomy community, real-time imagery is not available in this tool for either telescope.)
Details such as target name and coordinates, scheduled start and end times, and the research topic, are pulled directly from the observation scheduling and proposal planning databases. Links within the tool direct users to the original research proposal, which serves as a gateway to more technical information.
While this latest version of NASA’s Space Telescope Live constitutes a significant transformation from the previous release, the team is already gathering feedback from users and planning additional enhancements to provide opportunities for deeper exploration and understanding.
NASA’s Space Telescope Live is designed to work on desktop and mobile devices, and is accessible via NASA’s official Hubble and Webb websites. Additional details about the content, including public-friendly explanations of the information displayed in the tool, can be found in the User Guide.
The James Webb Space Telescope is the world’s premier space science observatory. Webb is solving mysteries in our solar system, looking beyond to distant worlds around other stars, and probing the mysterious structures and origins of our universe and our place in it. Webb is an international program led by NASA with its partners, ESA (European Space Agency) and the Canadian Space Agency.
The Hubble Space Telescope has been operating for over three decades and continues to make ground-breaking discoveries that shape our fundamental understanding of the universe. Hubble is a project of international cooperation between NASA and ESA. NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope. Goddard also conducts mission operations with Lockheed Martin Space in Denver, Colorado. The Space Telescope Science Institute (STScI) in Baltimore, Maryland, conducts Hubble and Webb science operations for NASA.
Learn More:
Selecting What Webb Observes Next
Media Contacts:
Claire Andreoli – claire.andreoli@nasa.gov
Laura Betz – laura.e.betz@nasa.gov
NASA’s Goddard Space Flight Center, Greenbelt, MD
Margaret W. Carruthers, Christine Pulliam
Space Telescope Science Institute, Baltimore, MD
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Last Updated Mar 06, 2024 Editor Andrea Gianopoulos Location Goddard Space Flight Center Related Terms
Astrophysics Astrophysics Division Goddard Space Flight Center Hubble Space Telescope James Webb Space Telescope (JWST) Missions Keep Exploring Discover More Topics From NASA
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