AusIMM Tarkwa Student Chapter’s Post

The CanAm SpacePort is our nation's key (Canada also) to Polor Insertions. From instrumentation to exploration, extraterrestrial mining, and recycling space debris, these Polar Orbits are the stepping-off point for missions to the moon, Mars, and beyond. It is time for the Northstar State to take its place in accessing the stars. With the investment in the CanAm Spaceport, Minnesota can once again contribute to its rich history of innovation and technology leadership. This project will not only reshape and invigorate the economies of Minnesota and central Canada. It will also remediate the environmental scars of the Iron Range and provide a robust future for the families who live there. #CanAmSpaceport #IRRRB #spaceeconomy #spaceexploration #mnjobs #spaceeducation

It is time to support the CanAm Spaceport. If you are interested in space exploration, extraterrestrial mining, ex-terra colonization, recycling space debris or advanced spectral earth analissys, you should support the CanAm SpacePort.   Minnesota has a rich history of innovation and technological advancement.   The CanAm SpacePort is an opportunity to once again contribute to this legacy and return the region to economic prosperity.   As a bonus to the local residents and the inhabitants of the earth, we will remediate the environmental damage of the prior industrial revolution. The scares of the past can provide a foundation for our future with lessons learned and a commitment to ecology.    If you are fascinated with space, please share this.  The space industry is already buzzing and excitement; we are now beginning to gather public support.  Hopefully, you will start to see more information soon.  Let’s take flight, MN; we can lead the world! #canamspaceport #spaceport #irrrb #spaceeconomy #amr #mnjobs #spaceexploration #bcautomation #iot #miningindustry #spaceeducation #education

#space #aerospace #astronautics #astronautics4xploit The dream and desire to explore Mars, dated back to the 1950s, was championed by early rocket scientists and space exploration pioneers such as von Braun, Korolev, and many others. According to the research findings, Korolev in 1959 developed a 4-stage Molniya planetary launch vehicle which he derived from the 2-stage R-7 ICBM that launched Sputnik in 1957. In 1960, he built a new planetary spacecraft for Mars and Venus. The successful launch of Mariner 4 on November 28, 1964, and its successful flyby of Mars on July 15, 1965, heralded the beginning and a new era of Mars exploration. Mariner 4 took 22 pictures of the Martian surface from a distance of over 9677 km (6000 miles). Viking 1 and 2 launched on August 20, 1975, and September 9, 1975, respectively, monitored weather at their respective Mars landing sites and reported on Martian temperatures, barometric pressure, and wind conditions. Viking data also determined that the planet's north polar ice cap is made of water ice rather than frozen carbon dioxide, as had been previously thought. Mars Pathfinder, launched on December 4, 1996, and landed on Mars' Ares Vallis on July 4, 1997, determined the elemental composition of Mars rocks and soils provided images of the surrounding terrain for geological studies, and documented the performance and operating environment for Pathfinder mission technologies. The Mars 2020 Perseverance Rover mission addresses high-priority science goals for Mars exploration, including key questions about the potential for life on Mars. The 2001 Mars Odyssey mission is NASA's longest-lasting spacecraft at Mars making the first global map of the amount and distribution of many chemical elements and minerals that make up the Martian surface. The ExoMars Program is a pair of missions, led by the European Space Agency (ESA), designed to understand if life ever existed on Mars. The Mars Sample Return Campaign is an effort to bring samples of Martian rocks and soil safely back to Earth, where they can be investigated in unprecedented detail, using all the capabilities of terrestrial laboratories. In this video, Astronautics4Xploit presents "Mars Exploration: The Past, The Present & The Future". The focus points are Mars Exploration, Mars Exploration: The Past, Mars Exploration: The Present, and Mars Exploration: The Future. For more information, contact Astronautics4Xploit at: Website: https://lnkd.in/gpeiAGS YouTube: https://lnkd.in/gKnRqiz Facebook: https://lnkd.in/getxfPK Instagram: https://lnkd.in/gsKpFG7 LinkedIn: https://lnkd.in/gsY8pYN Please, remember to SUBSCRIBE to our channel. Thanks.

#space #aerospace #astronautics #astronautics4xploit The dream and desire to explore Mars, dated back to the 1950s, was championed by early rocket scientists and space exploration pioneers such as von Braun, Korolev, and many others. According to the research findings, Korolev in 1959 developed a 4-stage Molniya planetary launch vehicle which he derived from the 2-stage R-7 ICBM that launched Sputnik in 1957. In 1960, he built a new planetary spacecraft for Mars and Venus. The successful launch of Mariner 4 on November 28, 1964, and its successful flyby of Mars on July 15, 1965, heralded the beginning and a new era of Mars exploration. Mariner 4 took 22 pictures of the Martian surface from a distance of over 9677 km (6000 miles). Viking 1 and 2 launched on August 20, 1975, and September 9, 1975, respectively, monitored weather at their respective Mars landing sites and reported on Martian temperatures, barometric pressure, and wind conditions. Viking data also determined that the planet's north polar ice cap is made of water ice rather than frozen carbon dioxide, as had been previously thought. Mars Pathfinder, launched on December 4, 1996, and landed on Mars' Ares Vallis on July 4, 1997, determined the elemental composition of Mars rocks and soils provided images of the surrounding terrain for geological studies, and documented the performance and operating environment for Pathfinder mission technologies. The Mars 2020 Perseverance Rover mission addresses high-priority science goals for Mars exploration, including key questions about the potential for life on Mars. The 2001 Mars Odyssey mission is NASA's longest-lasting spacecraft at Mars making the first global map of the amount and distribution of many chemical elements and minerals that make up the Martian surface. The ExoMars Program is a pair of missions, led by the European Space Agency (ESA), designed to understand if life ever existed on Mars. The Mars Sample Return Campaign is an effort to bring samples of Martian rocks and soil safely back to Earth, where they can be investigated in unprecedented detail, using all the capabilities of terrestrial laboratories. In this video, Astronautics4Xploit presents "Mars Exploration: The Past, The Present & The Future". The focus points are Mars Exploration, Mars Exploration: The Past, Mars Exploration: The Present, and Mars Exploration: The Future. For more information, contact Astronautics4Xploit at: Website: https://lnkd.in/gpeiAGS YouTube: https://lnkd.in/gKnRqiz Facebook: https://lnkd.in/getxfPK Instagram: https://lnkd.in/gsKpFG7 LinkedIn: https://lnkd.in/gsY8pYN Please, remember to SUBSCRIBE to our channel. Thanks. https://lnkd.in/ePiad7jX

In many times #ilic #copler mine #landslide investigated different #InSAR methods like Descartes Labs report. Today I tried to reprocess this catastrophic event with #MintPy. I used opensarlab and Alaska Satellite Facility’s new on-demand processing “INSAR ISCE BURST” products with 5x1 looks on descending orbits. I applied ERA5 atmospheric correction on stacks. Results show us something was starting to go wrong in May 2023. This means InSAR has got potential to be a part of early warning systems for the mining industry. #SAR Capella Space  

Vacuum solutions for space – Interplanetary exploration and asteroid mining - Mass degradation The economic, societal, and environmental benefits that could come from asteroid mining are enormous, and some have argued that the long-term survival of the human race rests on our ability colonize on other planets. Our TML (total mass loss) technology allows space projects to test elements and components in conditions likely to be found in outer space, or on other planets/asteroids over long periods of time. This allows for the development of the new technologies that will be needed for such missions, as well as potentially one day building colonies and critical infrastructure to support life away from earth. Discover more about how our vacuum technology is used by space projects across a range of applications: https://bit.ly/3ukKyXC #Leybold #LeyboldSpaceVacuum #ElectricPropulsionTestingTechnology #VacuumTechnologyforSpace #IonThrusterVacuum

Absolutely important Congressional testimony looking at space mining and the future of commercial engagements in space. Thanks to Dr Greg Autry, Mr Lang Eric Sundby, Dr Moses Milazzo, and Prof Michelle L.D. Hanlon for testifying on the importance of mapping out long term strategy in future space economy. #Spacemining and #ISRU are naturally first area to develop before starting to build required space-based infrastructure. America’s democratic approach in developing space must be the basis how we treat and develop space resources and wealth on an equitable basis. If the US lags in this regard, other state actors may treat space on a first-come, first-serve basis where might makes right. Thanks also to Thunderbird School of Global Management’s Graduate program on Space Leadership, Business & Policy for illuminating the issues associated with building a space economy. I welcome feedback from my friends from the asset management industry, what conditions are required for institutional investors to invest in the new space economy such as space mining?

63,500 satellites will enter orbit by 2030 Deep space missions like GEO tugs, mining, or lunar exploration will require onboard data processing Having to send data back to Mission Control and await a response is a liability when you're grappling with an asteroid or scouting a landing site

IMO… If the public narrative that Americans have not been back to the #Moon since 1972 is true, the USA has squandered a 50 year head start to unlock the riches of this newly accessible world. Keep in mind that the nations of Europe which took the initiative to extract the riches of the Americas gained an decisive upper hand over their competition in Europe, the Middle East, Central Asia, & East Asia in the 16th & 17th centuries. USA still has a head start to set up military outposts on the Moon & build a lunar #mining industry; but #China is rapidly catching up. I agree with Professor Greg Autry re: the #SpaceRace: “Any delay in America’s development of #space resources, no matter how well intended, will leave the field to that rapacious [#CCP] regime.” #SpaceMining #LunarMining

https://lnkd.in/gQgWR5ES Musk foresaw the first two cargo missions to Mars as early as 2022, with the goal to "confirm water resources and identify hazards" while deploying "power, mining, and life support infrastructure" for future flight