Cape Canaveral, FL – January 16, 2025 – In a remarkable achievement for commercial spaceflight, Blue Origin’s New Glenn rocket successfully reached orbit during its inaugural NG-1 mission today, marking a significant milestone for the company and the industry. The rocket’s second stage performed flawlessly, completing two successful burns with the BE-3U engines, achieving its intended orbital parameters.

Dave Limp, CEO of Blue Origin, expressed his pride in the team’s accomplishment, stating, “New Glenn achieved orbit on its first attempt! We set out with ambitious goals, and while we lost our booster during descent, we gained invaluable insights from today’s mission.” Limp highlighted the importance of New Glenn in supporting critical missions for customers, including NASA’s Artemis program, which aims to establish a sustained human presence on the Moon.

New Glenn

The New Glenn vehicle is pivotal for Blue Origin’s future launches, including the Blue Moon Mark 1 cargo lander and the Mark 2 crewed lander, which will serve NASA’s lunar objectives. In addition, the company is seeing strong demand, with various vehicles in production and a growing list of customers like NASA, Amazon’s Project Kuiper, and AST SpaceMobile.

Jarrett Jones, Senior Vice President of New Glenn, remarked on the significance of the day, saying, “Today marks a new era for Blue Origin and for commercial space. We’re ramping our launch cadence and are incredibly grateful to everyone at Blue Origin, our customers, and the space community for their unwavering support.”

The launch, which took place at 2:03 a.m. EST from Launch Complex 36, signals the beginning of a formidable era in Blue Origin’s operations as it seeks to connect its missions with emerging national security objectives through certification from the U.S. Space Force.

Blue Origin plans to conduct further missions with New Glenn, expanding its role in the growing landscape of space exploration and resource utilization. The company is focused on learning from today’s endeavor and aims to return for another launch attempt this spring.

Stay tuned for more updates on Blue Origin’s ambitious journeys ahead!

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The science section of our news blog STM Daily News provides readers with captivating and up-to-date information on the latest scientific discoveries, breakthroughs, and innovations across various fields. We offer engaging and accessible content, ensuring that readers with different levels of scientific knowledge can stay informed. Whether it’s exploring advancements in medicine, astronomy, technology, or environmental sciences, our science section strives to shed light on the intriguing world of scientific exploration and its profound impact on our daily lives. From thought-provoking articles to informative interviews with experts in the field, STM Daily News Science offers a harmonious blend of factual reporting, analysis, and exploration, making it a go-to source for science enthusiasts and curious minds alike. https://stmdailynews.com/category/science/

Arthur Daemmrich, Arizona State University

President Joe Biden was inaugurated in January 2021 amid a devastating pandemic, with over 24 million COVID-19 cases and more than 400,000 deaths in the U.S. recorded at that point.

Operation Warp Speed, initiated by the Trump administration in May 2020, meant an effective vaccine was becoming available. Biden quickly announced a plan to immunize 100 million Americans over the next three months. By the end of April 2021, 145 million Americans – nearly half the population – had received one vaccine dose, and 103 million were considered fully vaccinated. Science and technology policymakers celebrated this coordination across science, industry and government to address a real-world crisis as a 21st-century Manhattan Project.

From my perspective as a scholar of science and technology policy, Biden’s legacy includes structural, institutional and practical changes to how science is conducted. Building on approaches developed over the course of many years, the administration elevated the status of science in the government and fostered community participation in research.

Raising science’s profile in government

The U.S. has no single ministry of science and technology. Instead, agencies and offices across the executive branch carry out scientific research at several national labs and fund research by other institutions. By elevating the White House Office of Science and Technology Policy to a Cabinet-level organization for the first time in its history, Biden gave the agency greater influence in federal decision-making and coordination.

Formally established in 1976, the agency provides the president and senior staff with scientific and technical advice, bringing science to bear on executive policies. Biden’s inclusion of the agency’s director in his Cabinet was a strong signal about the elevated role science and technology would play in the administration’s solutions to major societal challenges.

Under Biden, the Office of Science and Technology Policy established guidelines that agencies across the government would follow as they implemented major legislation. This included developing technologies that remove carbon dioxide from the atmosphere to address climate change, rebuilding America’s chip industry, and managing the rollout of AI technologies.

Instead of treating the ethical and societal dimensions of scientific and technological change as separate from research and development, the agency advocated for a more integrated approach. This was reflected in the appointment of social scientist Alondra Nelson as the agency’s first deputy director for science and society, and science policy expert Kei Koizumi as principal deputy director for policy. Ethical and societal considerations were added as evaluation criteria for grants. And initiatives such as the AI bill of rights and frameworks for research integrity and open science further encouraged all federal agencies to consider the social effects of their research.

The Office of Science and Technology Policy also introduced new ways for agencies to consult with communities, including Native Nations, rural Americans and people of color, in order to avoid known biases in science and technology research. For example, the agency issued government-wide guidance to recognize and include Indigenous knowledge in federal programs. Agencies such as the Department of Energy have incorporated public perspectives while rolling out atmospheric carbon dioxide removal technologies and building new hydrogen hubs.

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Use-inspired research

A long-standing criticism of U.S. science funding is that it often fails to answer questions of societal importance. Members of Congress and policy analysts have argued that funded projects instead overly emphasize basic research in areas that advance the careers of researchers.

In response, the Biden administration established the technology, innovation and partnerships directorate at the National Science Foundation in March 2022.

The directorate uses social science approaches to help focus scientific research and technology on their potential uses and effects on society. For example, engineers developing future energy technologies could start by consulting with the community about local needs and opportunities, rather than pitching their preferred solution after years of laboratory work. Genetic researchers could share both knowledge and financial benefits with the communities that provided the researchers with data.

Fundamentally, “use-inspired” research aims to reconnect scientists and engineers with the people and communities their work ultimately affects, going beyond publication in a journal accessible only to academics.

The technology, innovation and partnerships directorate established initiatives to support regional projects and multidisciplinary partnerships bringing together researchers, entrepreneurs and community organizations. These programs, such as the regional innovation engines and convergence accelerator, seek to balance the traditional process of grant proposals written and evaluated by academics with broader societal demand for affordable health and environmental solutions. This work is particularly key to parts of the country that have not yet seen visible gains from decades of federally sponsored research, such as regions encompassing western North Carolina, northern South Carolina, eastern Tennessee and southwest Virginia.

Community-based scientific research

The Biden administration also worked to involve communities in science not just as research consultants but also as active participants.

Scientific research and technology-based innovation are often considered the exclusive domain of experts from elite universities or national labs. Yet, many communities are eager to conduct research, and they have insights to contribute. There is a decades-long history of citizen science initiatives, such as birdwatchers contributing data to national environmental surveys and community groups collecting industrial emissions data that officials can use to make regulations more cost effective.

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Going further, the Biden administration carried out experiments to create research projects in a way that involved community members, local colleges and federal agencies as more equal partners.

For example, the Justice40 initiative asked people from across the country, including rural and small-town Americans, to identify local environmental justice issues and potential solutions.

The National Institutes of Health’s ComPASS program funded community organizations to test and scale successful health interventions, such as identifying pregnant women with complex medical needs and connecting them to specialized care.

And the National Science Foundation’s Civic Innovation Challenge required academic researchers to work with local organizations to address local concerns, improving the community’s technical skills and knowledge.

Frontiers of science and technology policy

Researchers often cite the 1945 report Science: The Endless Frontier, written by former Office of Scientific Research and Development head Vannevar Bush, to describe the core rationales for using American taxpayer money to fund basic science. Under this model, funding science would lead to three key outcomes: a secure national defense, improved health, and economic prosperity. The report, however, says little about how to go from basic science to desired societal outcomes. It also makes no mention of scientists sharing responsibility for the direction and impact of their work.

The 80th anniversary of Bush’s report in 2025 offers an opportunity to move science out into society. At present, major government initiatives are following a technology push model that focuses efforts on only one or a few products and involves little consideration of consumer and market demand. Research has repeatedly demonstrated that consumer or societal pull, which attracts development of products that enhance quality of life, is key to successful uptake of new technologies and their longevity.

Future administrations can further advance science and address major societal challenges by considering how ready society is to take up new technologies and increasing collaboration between government and civil society.

Arthur Daemmrich, Professor of Practice in the School for the Future of Innovation in Society, Arizona State University

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This article is republished from The Conversation under a Creative Commons license. Read the original article.

The science section of our news blog STM Daily News provides readers with captivating and up-to-date information on the latest scientific discoveries, breakthroughs, and innovations across various fields. We offer engaging and accessible content, ensuring that readers with different levels of scientific knowledge can stay informed. Whether it’s exploring advancements in medicine, astronomy, technology, or environmental sciences, our science section strives to shed light on the intriguing world of scientific exploration and its profound impact on our daily lives. From thought-provoking articles to informative interviews with experts in the field, STM Daily News Science offers a harmonious blend of factual reporting, analysis, and exploration, making it a go-to source for science enthusiasts and curious minds alike. https://stmdailynews.com/category/science/

Robert A. Kopack, University of South Carolina

If there is a leader in the aerospace industry, SpaceX is it. The company’s Crew Dragon and Cargo Dragon spacecrafts are the current go-to vehicles to deliver astronauts and supplies to the International Space Station.

NASA contracts awarded to SpaceX through 2030 alone are worth nearly US$5 billion and include research and development for the Artemis mission to return astronauts to the Moon.

Over the past decade, SpaceX has also emerged as a key vendor to the U.S. Department of Defense, seen most recently with a $733.5 million contract for projects such as launching defense satellite networks and contributing to other national security space objectives.

As a human geographer, I’m interested in how commercial space and defense companies affect the local communities where they conduct launches and tests.

For instance, I spent over two years in Kazakhstan researching the privatization of the Soviet space program and the beginning of a global commercial space industry.

Elon Musk and SpaceX’s influence

Politically, SpaceX is an enormous boon to the United States.

As a U.S.-based defense supplier and contractor, the company’s technology has helped to nearly end an almost two-decade dependency on the Russian Federation for access to the International Space Station. Its billionaire CEO, Elon Musk, has even expressed plans to colonize Mars.

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Musk’s decision to spend $250 million helping Donald Trump win the 2024 presidential election is expected to lead to more support for SpaceX.

In the new administration, Musk is poised to lead a newly created advisory agency called the Department of Government Efficiency, which could lead to benefits for his business and widen his space ambitions.

Boca Chica, Texas, is home to SpaceX’s flagship assembly and test installation, Starbase. Since 2021, I have been conducting research with environmental groups and multigenerational community members of Latino and Indigenous descent in south Texas who see space exploration as a landscape-altering industry that affects their well-being.

After watching Starbase’s development proceed since 2014, locals there told me that there is much unseen and unsaid about what happens on the ground while an aerospace giant shoots for the stars.

Breaking eggs to make an omelet

Starbase is an industrial installation built by SpaceX to fabricate and test a number of the company’s rocket types.

The area around it is a unique and delicate ecosystem that includes estuaries and coastal grasslands, mud flats and more, where falcons, hawks, ravens, gulls and songbirds live.

Since construction began, SpaceX engineers have had to drain water-logged soils, level them and pour concrete to support ground tracking stations, assembly buildings, engine test stands, a nearly 500-foot (152-meter) launch tower and onsite fuel mixing and storage.

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In a lengthy response to local environmental groups’ claims of environmental abuses, the company maintains that it is dedicated to environmental stewardship.

But developing rockets is a dangerous and messy business. Sites chosen for this kind of work are often, though not always, remote and highly secured installations.

Fiery explosions on the ground or in the air aren’t unheard of over the past several years. Rocket tests in Scotland, China and Japan have all ended in accidents.

In April 2023, one of SpaceX’s prototype Starship rockets exploded over the Gulf of Mexico shortly after liftoff.

This is not the only time that a rocket has exploded at places where SpaceX operates.

SpaceX runs a compact though growing operation at Boca Chica that has transformed the area. The hamlet was previously known as Kopernik Shores, and SpaceX purchased nearly all of the approximately 35 ranch homes in the area. Some residents have reported pressure to sell their property for suboptimal prices following rumors that the county would use eminent domain to seize their residences.

I spoke to Rebekah Hinojosa, a local activist and member of the Carrizo-Comecrudo Tribe of Texas, while researching in the area. To many locals, including Hinojosa, it seems like Musk is so well connected that SpaceX is insulated from public criticism.

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In a 2018 press conference, Musk said, “We’ve got a lot of land with no one around, and so if it blows up, it’s cool,” referring to a rocket he planned to test at Starbase.

Changes to the landscape

An installation the size of Starbase cannot avoid disturbing the wildlife in the four distinct state and federal wildlife protection areas that surround it.

If you walk through the protected areas you may see shrapnel, segments of rocket chassis and other random debris from any number of explosions – that is, if someone else hasn’t picked them up first.

In December 2022, I visited a luxury campground near Starbase. It displayed various fragments of rocket debris, which they called memorabilia to the new space age, throughout the site.

Within SpaceX, as well as NASA, the explosion of 2023 was celebrated as a crucial step in developing the Starship rocket. The event did produce valuable data on the rocket’s performance – it has done little to tarnish the company’s reputation.

There is tremendous support for SpaceX in Texas. The company has promised to drive high-tech industry jobs into a region ranked among the country’s poorest.

SpaceX has created about 2,100 jobs. However, reporting shows that local and state politicians have seen more personal gains in their real estate holdings and campaign budgets than the region’s economy has overall.

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A laboratory near the community

At the end of the day, to develop a rocket, you need a place to test your design.

“Our local beach is the laboratory,” local activist Hinojosa told me.

Resident coalitions of Indigenous, Latino and Chicano people as well as conservation groups are suing the Texas Parks and Wildlife Department, the Federal Aviation Administration and others to combat SpaceX.

These groups argue that SpaceX misled state and federal regulators about Starbase’s operations. They claim SpaceX changed how frequently it planned to launch tests and built new facilities for several rocket types, which rendered the company’s original environmental impact statement for the area inaccurate.

Some key issues these groups are fighting against include a bid to expand Starbase into more protected areas. Another point of contention is the deluge system, which creates thousands of gallons of toxic wastewater to cool launch pads and rocket engines after testing.

While the EPA and the Texas Commission on Environmental Quality have notified SpaceX about violations of the Clean Water Act, claimants in a recent lawsuit contend that these agencies have not held the company accountable for breaking the law. The company has denied any wrongdoing and refutes claims of environmental harms.

“As we have built up capacity to launch and developed new sites across the country, we have always been committed to public safety and mitigating impacts to the environment,” a SpaceX statement reads. “The list of measures we take just for operations in Texas is over two hundred items long, including constant monitoring and sampling of the short and long-term health of local flora and fauna. The narrative that we operate free of, or in defiance of, environmental regulation is demonstrably false.”

So, what does the future hold? Many people from conservation agencies, activist groups and Indigenous communities in Texas want the company out. Given the high public support for space exploration in the U.S. and the burgeoning friendship between Musk and Trump, a SpaceX evacuation from the area seems unlikely.

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While it may take difficult negotiations that require concessions from each party, I hope that somewhere there is a middle ground on which space exploration and environmental protections can coexist.

This article was updated on Jan. 17, 2024 to reflect the amount of money Musk spent helping Trump win the 2024 election as $250 million and the correct speed of light.

Robert A. Kopack, Faculty Instructor of Human Geographies, University of South Carolina

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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