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Meanwhile, in Dobrzyn, Hili is being demanding, as cats are:

Hili: We have to have a serious talk.
A: What about?
Hili: About your duties.

Hili: Musimy poważnie porozmawiać.
Ja: O czym?
Hili: O twoich obowiązkach.

I suppose it's my turn to be called a fraudster, liar, perjurer, felon, grifter, stooge, imbecile, and maybe even murderer. What I won't get is a reasonable explanation as to why supposedly releasing a deadly virus was mass murder, but intentionally spreading it was a forgivable "policy position".

The post Biosafety Now: Releasing The Virus Was Mass Murder. Intentionally Spreading It Was Forgivable. first appeared on Science-Based Medicine.

We are three college professors who wish to call attention to a growing problem, namely the erosion of the foundational values of a college education: free inquiry and free speech, rationality and empiricism, civil discussion and debate, and openness to new ideas.

The Rise of Critical Theories

Critical theory is a school of thought that has its roots in Marxist theories of human nature and society. It originally developed in Germany in the 1920s among a group of scholars at the Institute for Social Research. They were attempting to salvage some of the failed ideas of Marxism by extending theory to embrace non-economic forms of inequality and oppression.

Critical theorists believe that mainstream knowledge is used to promote the interests of the powerful. Unlike traditional social science, which aims to objectively describe human nature and society by carrying out scientific research, critical theory promotes ideological narratives as self-evidently true. Based on their theories about human nature and social justice, critical theorists promote political activism (or “praxis”), and at times even violent revolution, to achieve their goals.

The predecessor to critical theory, Marxism, simplistically divided people into groups labeled as oppressors or oppressed. Marxism’s original group division was economic—the groups were the oppressive Bourgeois (those who controlled the means of production) and the oppressed Proletariat (the workers). It tried to explain the systemic causes of these group divisions (capitalism) and it developed a set of proposed solutions, including violent revolution, that it presumed would lead to a utopian communist society. These steps, which we will call “Marxist methodology, subsequently became part of critical theories that then focused on additional ways of dividing people into categories of oppressors and oppressed. The Marxist methodology follows the steps shown in Table 1.

Click table to enlarge

1. Divide people into two (or more) groups.
2. Label one group as the oppressed (“the good”), the other as the oppressors (“the bad”).
3. Develop a theory that purports to explain the systemic causes of this division. The theory is often conspiratorial in nature—oppressors are seen as scheming to keep the oppressed in their place.
4. Identify and implement solutions. Encourage group solidarity among the oppressed group, promote an “us-versus-them” mentality, groupthink, and adherence to the party line, invent insulting labels to brand members of the out-group, and engage in activism and/or revolution that will purportedly end those social injustices.

Many social movements based on critical theories have used this Marxist methodology, as noted in Table 1.

All these ideological movements have restricted free speech, encouraged an “us” versus “them” political tribalism, employed personal ad hominem attacks against opponents, and promoted cancellation campaigns. While it is important to respect diversity and historical injustices, we should keep in mind that truly liberal worldviews emphasize our common humanity—which is far less divisive.

What Does “Social Justice” Mean?

The new higher education mantra, “social justice” sounds good, but it in fact can refer to either of two often mutually exclusive philosophies: liberal social justice or critical social justice. Though few acknowledge it, increasingly social justice is sold as the former, but practiced as the latter. Consider how they compare in the Table 2.

Click table to enlarge

As is evident, liberal social justice and critical social justice employ two very different methods in determining what constitutes social justice.

Language Revisionism

Critical social justice activists often use the “Motte and Bailey strategy” (see Table 3) to make extreme proposals appear moderate. In this gambit a highly defensible “Motte” position is promoted, while successively working toward a more radical “Bailey” position. This gambit is used often in postmodernist discourses. For example, by asserting that morality is socially constructed, the Motte is that our beliefs are socially influenced, and the Bailey is that there is no such thing as morality or truth. Another example:

• A (non-controversial) Motte position: “We want social justice.” This statement is difficult to argue against, as just about everyone believes in fairness (though they may differ in how they define the term or how to achieve it).
• A (controversial) Bailey position: “We need to re-define social justice as critical social justice and we need to make fundamental (sometimes radical) changes to our society including ending the rule of law, free speech, property rights, and merit systems.” This statement is much more controversial than the Motte, as it suggests that the current social order is inherently unjust and so needs to be overthrown.

Here are more examples of the Motte and Bailey strategies with respect to the re-definition of some commonly used words.

Click table to enlarge

What is social justice when re-interpreted from a critical social justice lens?1

Again, the term “social justice” in common language refers to the liberal social justice conceptions of individual rights and responsibilities, equal opportunity, blind justice, equality before the law, etc., as noted above. These ideas evolved from historic common law, the Enlightenment (particularly the Scottish Enlightenment), and U.S. constitutionalism.

However, over recent decades the term social justice has come to be redefined in terms of critical, not liberal, social justice. This re-definition was accomplished surreptitiously through the Motte and Bailey gambit, and it also allowed the more radical philosophy of critical theory itself to be covertly introduced into college campuses while flying under the academic radar. By analogy, the term “social justice” has been used as a terminological Trojan horse to insert critical social justice and critical theory into the academy under the guise of liberal social justice.

Restrictions on Freedom of Speech and Open Inquiry

This sort of critical social justice activism and indoctrination (as opposed to exposing students to these perspectives in the context of discussing and debating the respective strengths and weaknesses of a range of perspectives) is the opposite of free expression and open inquiry, and thus it is the antithesis of the foundational values of traditional higher education.

Often mere attempts to question how, why, or whether X-injustice is happening leads to accusations that the questioner must be a bigoted “X-ist” or “X-phobe.” Questioning is often dismissed by critical theorists as defensive rhetoric employed to defend one’s privilege and power. The questioner needs thus be silenced, ostracized, and/or canceled. As documented by the Foundation for Individual Rights and Expression (FIRE), this has in fact happened thousands of times.

Some Examples of Restriction of Speech and Open Inquiry

A series of large-scale empirical studies beginning in the year 2000 found that both students and professors report fearing to express or explore political and ideological viewpoints that are critical of critical theory.2 Further, campuses have little ideological diversity among faculty and administrators, with typically a 12:1 ratio of liberal/progressive to conservative/libertarian, and many departments and some whole fields lacking any conservative or libertarian faculty members. Studies document that many professors freely admit to discriminating against colleagues and students who support liberal, rather than critical, conceptions of social justice. Here are some recent representative examples:

• Bret Weinstein, a former professor of biology at Evergreen State College in Olympia, WA, was deplatformed and forced to resign after he was accused of racism and white privilege for refusing to participate in a “Day of Absence,” which asked white faculty to stay off campus for the day to celebrate people of color.
• Lindsay Shepherd, a teaching assistant at Wilfrid Laurier University in Canada, was suspended after she showed her class a video of a debate about gender pronouns. She was accused of violating the university’s policy on discrimination and harassment.
• Dorian Abbot, an associate professor of geophysics at the University of Chicago, was disinvited from giving a prestigious lecture at the Massachusetts Institute of Technology (MIT) after he wrote an opinion piece criticizing diversity initiatives and instead supporting meritbased college admissions, hiring, and promotions.
• Nicholas Christakis, a professor of sociology at Yale University, was placed on administrative leave after he sent an email to students urging them to be civil to those with whom they disagree.
• Ayaan Hirsi Ali, a former Dutch politician and women’s rights activist who herself suffered female genital mutilation as a child in a traditional Islamic society, was disinvited from speaking at the University of California, Berkeley, after students protested her views on Islam.

Critical Pedagogy: Political Activism in the Classroom

Critical pedagogy is an ideological approach to teaching that attempts to impose political views and activism in the classroom that are consistent with critical theory. It was founded by the Brazilian philosopher and educator Paulo Freire, who promoted it through his 1968 book Pedagogy of the Oppressed. It pressures students to adopt a specific political ideology and rejects dissenting views. Doing so takes time away from developing core academic skills, including critical thinking skills.

At its worst, critical pedagogy can produce an environment where some professors and administrators try to tell students not how to think, but what to think. Professors should not be using the lectern as an activist bully pulpit to push their personal ideological or political beliefs. Since professors are in positions of power relative to their students, such activism in the classroom is unethical and constitutes professional misconduct. Students should not be expected to conform to ideologies or dogmas in the classroom.

It is unfortunate that students will very likely be subject to activism on the part of some of their professors and even some fellow students. If they disagree with them, they may at times feel that they should keep their thoughts to themselves. But do not. Speak up!

Spotting Education v. Indoctrination

To be clear, although we do not subscribe to critical theory because of the difficulties with it that we (and many others) have identified, we do not object to a professor teaching or discussing critical theory and critical social justice and presenting his or her opinions about matters based on those perspectives. College is all about exposing students to a range of ideas and opinions. However, professors should not attempt to indoctrinate their students with critical theory or anything else, and they should expose students to a range of perspectives on various issues. Below are a few pointers to help students to identify whether a course or a professor is promoting critical theory through indoctrination rather than education.

Courses that educate tend to have:

• A Balance of Perspectives: Look for courses that present multiple viewpoints and encourage open discussion. A balanced education should expose students to various ideas, even those that challenge the prevailing consensus.
• Freedom of Thought: If a course or professor discourages questioning or presents information as absolute truth without room for debate, it might be indoctrination. In contrast to a fundamentalist religion, education encourages students to question, analyze, and form their own conclusions.
• An Evidence-Based Approach: Knowledge should be grounded in research, evidence, and historical context. If a course lacks substantial evidence to support its claims or relies primarily on emotional appeals, it is less education than indoctrination.
• Engagement with Opposing Views: A healthy educational environment should encourage engaging with opposing viewpoints. If a course dismisses or demonizes dissenting perspectives, it could be leaning towards indoctrination.

Whereas courses that indoctrinate tend to:

Discourage Disagreement: The professor discourages students from challenging their favored concepts and ideals.

Rely on Emotional Appeals and Ad Hominem Attacks: The professor uses emotional appeals and personal attacks to silence dissent.

Campus activism can be covert rather than overt, with the professor communicating to students what is acceptable or not based on their reactions to student comments, the topics they select to discuss and to omit, their grading practices and feedback, how they interact with and treat students having different opinions, or even their body language when talking about various topics.

A 2007 American Association of University Professors (AAUP) subcommittee report stated such activist professors present their favored worldview “dogmatically, without allowing students to challenge their validity or advance alternative understandings” and such instructors “insist that students accept as truth propositions that are in fact professionally contestable.” Given that professors are in a position of power over their students, this type of behavior is especially inappropriate. And, as far back as 1915, the AAUP advised that professors “should, in dealing with [controversial] subjects, set forth justly, without suppression or innuendo, the divergent opinions” on the issue. This 1915 advisory is still in effect. Indeed, any failure to do so may constitute an ethical breach. Professors should teach students about different sides of an issue and do so fairly, rather than pretending there is just one permitted viewpoint, as in a Marxist or authoritarian organization or system.

What Should Be Done?

First, if students encounter a professor that they believe is using the classroom to engage in ideological or political activism, students should speak up. That may be less risky than students think. Remember, education should empower students to engage in critical thinking and constructive dialogue. If students encounter concerning situations, approach professors for respectful discussions. If needed, seek guidance from department chairs or administrators who value open inquiry. There usually are some.

This article appeared in Skeptic magazine 29.2
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Often, students cannot rely on their institution’s hierarchy alone—indeed they may be part of the problem. Moreover, there is safety in numbers. Enlist parents and outside organizations to lobby college or university to ensure that it is promoting intellectual diversity, open inquiry, and free thought. (A very simple change is to ask that course evaluations include questions on whether students felt free to voice their opinions in class, whether the professor dealt fairly with students having divergent views, and whether different sides of controversial issues were presented or discussed.)

Today, there are numerous organizations to help students. Currently, the most prominent bipartisan protectors and promoters of free thought are the Foundation for Individual Rights and Expression (FIRE) and Speech First. The important thing to remember is that you are not alone. Aside from those organizations, it is certain that many others at their institution will be rooting for students, even if they feel that they can only do so privately.

Second, know that when confronted with transparency (sometimes supplemented with attorneys), bullies tend to back down.

Third, know that the trials students are facing now can make them stronger, and further, are nothing like those faced by Alexander Solzhenitsyn, Vaclav Havel, Martin Luther King, Jr., Jackie Robinson, James Meredith, and thousands of others who faced suppression for their beliefs or their identity. The worst fate awaiting students would be having to transfer from a school which does not value free thought to one that does. Students have choices. Make them wisely.

About the Author

Michael Mills is an evolutionary psychologist at Loyola Marymount University (LMU). He earned his B.A. from UC Santa Cruz and his Ph.D. from UC Santa Barbara. He has served as Chair, and as the Director of the Graduate Program, at the LMU Psychology Department. He serves on the editorial boards of several academic journals and on the executive board of the Society for Open Inquiry in the Behavioral Sciences (SOIBS).

Robert Maranto is the 21st Century Chair in Leadership in the Department of Education Reform at the University of Arkansas, where he studies bureaucratic reform and edits the Journal of School Choice. He has served on the Fayetteville School Board (2015-20) and currently serves on the executive board of the Society for Open Inquiry in the Behavioral Sciences (SOIBS). With others, he has produced about 100 refereed publications and 17 scholarly books so boring his own mother refused to read them, including President Obama and Education Reform (Palgrave/Macmillan, 2012), Educating Believers: Religion and School Choice (Routledge, 2021), and The Free Inquiry Papers (AEI, 2024). He can be reached at rmaranto@uark.edu.

Richard E. Redding is the Ronald D. Rotunda Distinguished Professor of Jurisprudence and Associate Dean, and Professor of Psychology and Education at Chapman University. He has written extensively on the importance of viewpoint and sociopolitical diversity in teaching, research, and professional practice. Notable publications include Ideological and Political Bias in Psychology: Nature, Scope, and Solutions (Springer, 2023); Sociopolitical Values at the Deep Culture in Culturally-Competent Psychotherapy (Clinical Psychological Science, 2023); and, Sociopolitical Diversity in Psychology: The Case for Pluralism (American Psychologist, 2001). He is the founding President of the Society for Open Inquiry in the Behavioral Sciences (soibs.com).

Organizations

• The Foundation for Individual Rights and Expression (FIRE). In particular, see its College Free Speech Rankings: https://bit.ly/3T0kbyn
• Campus Reform: campusreform.org
• Heterodox Academy: heterodoxacademy.org
• Academic Freedom Alliance: academicfreedom.org
• Society for Open Inquiry in the Behavioral Sciences (SOIBS): soibs.com

Additional Resources

• Infographic: Critical Theory and Classic Liberalism: https://bit.ly/3uMwOVP
• “Universities must choose between truth or social justice, not both” by Jonathan Haidt https://bit.ly/3Il7ucw
• “The Two Fiduciary Duties of Professors” by Jonathan Haidt https://bit.ly/49FJCwq

References

1. This section relies heavily on three works. For the best conceptual analyses of various branches of critical theory, see Helen Pluckrose and James Lindsay, Cynical Theories: How Activist Scholarship Made Everything About Race, Gender, and Identity. (Pitchstone Publishing). For a sound journalistic account about how critical theory spread across institutions, see Christopher F. Rufo, America’s Cultural Revolution: How the Radical Left Conquered Everything (Broadside Books). Though Rufo has become a political activist, we can attest that his journalistic work is sound, as least as regards those areas with which we are familiar. Finally, the best single work about how critical theory and other moral panics spread, particularly in higher education, remains Greg Lukianoff and Jonathan Haidt’s The Coddling of the American Mind (Penguin). Also see Kenny Xu’s School of Woke: How Critical Race Theory Infiltrated American Schools and Why We Must Reclaim Them. (Center Street) and Isaac Gottesman’s The Critical Turn in Education (Routledge)
2. Coddling of the American Mind; Eric Kaufmann, https://cspicenter.org/reports/academicfreedom/. Analyzing largescale surveys, political scientist Eric Kaufmann found over a third of conservative professors and doctoral students facing threats of discipline for their views. So have one in ten liberals, often censored by those farther left. Also see Richard E. Redding, “Psychologists’ Politics,” in Craig Frisby, Richard Redding, William O’Donohue, and Scott Lilienfeld, Ideological and Political Bias in Psychology: Nature, Scope, and Solutions (Springer), comprehensively reviewing all historical and current studies on the political views of professors and university administrators.

The largest pterosaurs, ancient reptiles that were the first vertebrates to master flight, may have mostly soared while smaller ones flapped their wings, a pattern that persists in today's birds

The European Space Agency (ESA) launched its final Vega rocket this week, lofting a Sentinel-2C Earth observation satellite into orbit. This wraps up 12 years of service and 20 successful flights for the venerable Vega. The rocket launched several well-known missions, including LISA Pathfinder (2015), the Earth-observing satellites Proba-V (2013), and Aeolus (2018). ESA will now launch these types of payloads on the new Vega-C rocket, capable of launching heavier payloads at a lower price.

Vega’s final launch was on September 5, 2024 from Europe’s Spaceport in French Guiana, and ESA said that it was fitting the rocket boosted to orbit one of the Sentinel satellites, as Vega had previously launched Sentinel-2A in 2015 and Sentinel-2B in 2017.

Vega was a smaller but powerful rocket launcher designed to loft smaller science and Earth observation satellites, specializing in launching of satellites into polar orbit. At 30 meters (98 ft) tall the rocket weighs 137 tons on the launch pad. Vega consisted of three solid-propellant powered stages with the a liquid-propellant fourth stage.  before the fourth liquid-propellant stage took over to bring satellites to their required orbit. Vega could reach space in just six minutes.

On 13 February 2012, the first Vega lifted off on its maiden flight from Europe’s South American Spaceport in French Guiana and deployed 9 science satellites. Credits: ESA – S. Corvaja

Vega’s first launch took place in February 2012, conducting a perfectly executed qualification flight to deploy 9 science cubesats into Earth orbit.

On Vega’s second flight in 2013, a secondary payload adapter called Vespa was added. This provided different options for payload ride-sharing where multiple satellites could be launched on one rocket. This flight brought three satellites to orbit — Earth observation satellites, ESA’s Proba-V, Vietnam’s VNREDSat-1A and Estonia’s first satellite, the ESTCube-1 technology demonstrator. All three were released into different orbits and the complex mission required five upper-stage boosts, with the flight lasting about twice as long as its first launch.

Countdown and launch of Vega’s final flight.

The most satellites Vega ever launched to orbit was in 2020 when a variant of Vespa was used — called the Small Spacecraft Mission Service — and brought over 50 satellites at once to orbit.

2015 was Vega’s’ busiest year, launching three ESA missions including a reentry demonstrator called IXV that prove the technology to launch a vehicle to space and return it safely to Earth. According to ESA, in less than two hours Vega accelerated IXV to speeds of 27,000 km/h (16,777 mph) at a height of 412 km (250 miles) before the reentry vehicle splashed down in the Atlantic Ocean.

But now ESA is building on Vega’s heritage, and the era of Vega-C has already begun. This new rocket completed its inaugural flight in July of 2022, putting the main payload LARES-2 – a scientific mission of the Italian Space Agency ASI – into orbit as well as six research CubeSats from France, Italy and Slovenia. ESA said Vega-C will provide better performance and greater payload capability as it has two new solid propulsion stages, an uprated fourth stage, a newly designed fairing, and new ground infrastructure.

Lift-off of a Vega-C rocket, with the Lares-2 mission plus rideshares. Credit: ESA

The post The Final Vega Rocket Blasts Off appeared first on Universe Today.

Jupiter’s moon, Ganymede, is a fascinating celestial body. Measuring 2,634 km (1,636 mi) in diameter, it is also the largest satellite in the Solar System and even larger than Mercury, which measures 2,440 km (1,516 mi) in diameter. Like Europa, it has an interior ocean and is one of the few bodies in the Solar System (other than the gas giants) with an intrinsic magnetic field. The presence of this field also means Ganymede experiences aurorae circling the regions around its northern and southern poles due to interaction with Jupiter’s magnetic field.

In addition, based on its surface craters, scientists believe that Ganymede experienced a powerful impact with an asteroid about 4 billion years ago. This asteroid was about 20 times larger than the Chicxulub asteroid that caused the extinction of the dinosaurs, or the Cretaceous–Paleogene extinction event (ca. 66 million years ago). According to a recent study by Naoyuki Hirata of Kobe University, this impact occurred almost precisely on the meridian farthest away from Jupiter. This caused a reorientation of Ganymede’s rotational axis and allowed Hirata to determine exactly what type of impact took place.

Naoyuki Hirata is an assistant professor with the Department of Planetology at Kobe University’s Graduate School of Science. His paper, “Giant impact on early Ganymede and its subsequent reorientation,” recently appeared in Science Reports. Since the Pioneer 10 and 11 and the Voyager 1 and 2 probes flew through the Jupiter system in the 1970s, scientists have known that large parts of Ganymede’s surface are covered by furrows that form concentric circles around a single spot. This led researchers in the 1980s to conclude that these were the result of a major impact event.

On large parts of its surface, Ganymede is covered by furrows (right) that form concentric circles around one specific spot (left, red cross). © HIRATA Naoyuki

The exact nature of this impact and its effects on Ganymede has been the subject of debate ever since. As Hirata said in a Kobe University press release:

“The Jupiter moons Io, Europa, Ganymede, and Callisto all have interesting individual characteristics, but the one that caught my attention was these furrows on Ganymede. We know that this feature was created by an asteroid impact about 4 billion years ago, but we were unsure how big this impact was and what effect it had on the moon.”

Using data obtained by the New Horizons mission of Pluto, Hirata drew on similarities with an impact event on Pluto that caused a shift in the (dwarf) planet’s rotational axis. As a specialist who simulates impact events on moons and asteroids, Hirata was able to calculate what kind of impact would have caused Ganymede’s orientation to shift. According to his estimates, the asteroid had a diameter of around 300 km (~186.5 mi) that created a crater measuring between 1,400 and 1,600 km (870 and 995 mi) in diameter before the debris resettled on the surface.

Evidence of this impact is visible today in the center of the furrow system on the anti-Jovian side of Ganymede (the hemisphere facing away from Jupiter) and currently measures roughly 1,000 km (662 mi) in diameter. Looking ahead, Hirata hopes to learn how this impact could have affected the moon’s evolution, particularly where its internal ocean is involved:

“I want to understand the origin and evolution of Ganymede and other Jupiter moons. The giant impact must have had a significant impact on the early evolution of Ganymede, but the thermal and structural effects of the impact on the interior of Ganymede have not yet been investigated at all. I believe that further research applying the internal evolution of ice moons could be carried out next.”

Distribution of furrows and the location of the center of the furrow system shown in the hemisphere that always faces away from Jupiter (top) and the cylindrical projection map of Ganymede (bottom). © HIRATA Naoyuki.

The ESA’s JUpiter ICy moons Explorer (JUICE) mission is currently en route to Jupiter and will establish orbit around Ganymede by 2034. The observations it makes over the next six months will help shed light on these and other questions regarding Ganymede and its sibling satellites, Europa and Callisto – not the least of which is whether or not these “Ocean Worlds” can support life.

Further Reading: Kobe University, Scientific Reports

The post Ouch! A Monster Asteroid Crashed Into Ganymede 4 Billion Years Ago, Rolling it Over appeared first on Universe Today.

Those of you following the Advanced Composite Solar Sail System may have heard that its booms and sail are now deployed. It is receiving light pressure from the Sun to propel it through the Solar System. Like a test pilot in a new aircraft, NASA are now testing out just how it handles. Before deployment, the spacecraft was slowly tumbling and now the controllers will see if they can get it under control and under sail power. The reflectivity of the sail means its an easy spot in the night sky, just fire up the NASA app to find out where to look.

Solar sails are an ingenious propulsion technique that employs pressure from sunlight to generate low levels of thrust. As the photons of light strike the surface, they transfer momentum to the solar sail and therefore the spacecraft is accelerated. The thrust is small but when applied over long periods of time can provide a very efficient way to propels small spacecraft. The first successful deployment of a sail occurred in 2010 with the IKAROS (Interplanetary Kite-craft Accelerated by Radiation of the Sun) spacecraft launched by the Japanese space agency JAXA. 

IKAROS spaceprobe with solar sail in flight (artist’s depiction) showing a typical square sail configuration. Credit: Wikimedia Commons/Andrzej Mirecki

The Advanced Composite Solar Sail System (ACSSS) was developed by NASA to test the technology. The boom that supports the sail is made of lighter and more durable composite materials. By testing the deployment of the booms and efficient sale operation NASA hopes to prove the viability of the technology. The ACSSS uses lighter more flexible materials than previous attempts and will enable more efficient deep space exploration, asteroid rendezvous and other missions requiring low-thrust propulsion. 

ACSSS orbits the Earth in a low orbit with an altitude of between 500-600 kilometres. Following launch, it was released purposely without attitude control and was as a result tumbling through space. Once the analysis has been completed, and the boom and sail deployment has been understood the team will re-engage the attitude control to stabilise the spacecraft. The next phase then begins as the team analyse flight handling and dynamics to adjust the spacecrafts orbit. 

An artist’s concept of NASA’s Advanced Composite Solar Sail System spacecraft in orbit as the Sun crests Earth’s horizon. Credits: NASA/Aero Animation/Ben Schweighart

Since the deployment of the sail, the operations team continue to receive images and data to help them understand how the boom technology has deployed. So far so good it seems for demonstrating the deployment and initial operations. The team will continue to monitor and analyse the incoming data and images in preparation for further technology tests and demonstrations in the week ahead.

Any keen eyed sky watchers may be able to spot the spacecraft as it passes overhead. The high reflectivity of the sail will make it clearly visible to the unaided eye.  NASA have added a new feature to their app so that users can setup notifications to get alerts when it is visible from their location. NASA is inviting the public to share their pictures of the spacecraft online using the hashtag #SpotTheSail.

Source : NASA Evaluates Deployed Advanced Composite Solar Sail System

The post NASA’s Putting its Solar Sail Through its Paces appeared first on Universe Today.

Saline drops and sprays have already been linked to reduced cold symptoms in adults and now a study suggests they also work in children

In the 17th century, astronomers Giovanni Domenica Cassini and Christian Huygens noted the presence of hazy white caps while studying the Martian polar regions. These findings confirmed that Mars had ice caps in both polar regions, similar to Earth. By the 18th century, astronomers began to notice how the size of these poles varied depending on where Mars was in its orbital cycle. Along with discovering that Mars’ axis was tilted like Earth’s, astronomers realized that Mars’ polar ice caps underwent seasonal changes, much like Earth’s.

While scientists have been aware that Mars’ polar ice caps change with the seasons, it has only been within the last 50 years that they have realized that they are largely composed of frozen carbon dioxide (aka. “dry ice”) that cycles in and out of the atmosphere – and questions as to how this happens remain. In a recent study, a team of researchers led by the Planetary Science Institute (PSI) synthesized decades of research with more recent observations of the poles. From this, they determined how the Martian poles differ in terms of their seasonal accumulation and release of atmospheric carbon dioxide.

The team was led by Dr. Candice Hansen, a Senior Scientist with the Planetary Science Institute (PSI) and a member of the HiRISE imaging team. She was joined by researchers from the Lunar and Planetary Laboratory (LPL) at the University of Arizona, the University of Nevada, the U.S. Geological Survey’s Astrogeology Science Center (USG-ASC), the Laboratory for Atmospheric and Space Physics at UC Boulder, IUCLA, the Astrophysics Research Centre at Queen’s University Belfast, the German Aerospace Center (DLR), and NASA’s Jet Propulsion Laboratory. The paper that details their findings recently appeared in the journal Icarus.

Mars’ south polar ice cap imaged by the HRSC camera on the ESA’s Mars Express. Credit: ESA/DLR/FU Berlin

For their study, Hansen and her colleagues relied on data acquired by Mars orbiters over the past few decades. They then compared this with more recent data from the High-Resolution Imaging Experiment (HiRISE) instrument on the Mars Reconnaissance Orbiter (MRO). This allowed them to track the growth and recession of the Martian ice caps, which cycle about a quarter of the planet’s atmosphere throughout a Martian year. The ultimate purpose was to learn more about the processes that shape the planet’s surface and overall environment. As Hansen summarized in a PSI press release:

“Everybody knows there’s a difference in how carbon dioxide interacts with the poles, but how many people understand why? That was what I was setting out to describe. And fortunately, I have a whole bunch of really talented co-authors who were willing to fill in their own pieces.”

Like Earth, Mars experiences seasonal changes due to its axial tilt, about 25 degrees relative to the orbital plane, compared to Earth’s tilt of about 23.5 degrees. But since Mars has a much longer orbital period (~687 days), the seasons last about twice as long as they do here on Earth. In addition, Mars has a greater orbital eccentricity – about 9% compared to 1.7% – which means its orbit is more elliptical. Because of this, Mars is farthest from the Sun when its northern hemisphere experiences Spring and Summer, while the south experiences Fall and Winter.

This means that summer in the southern hemisphere is shorter (while winter is longer in the north), coinciding with the dust storm season. As a result, the northern polar seasonal cap contains a higher concentration of dust than the south polar cap. “So ultimately, southern fall and winter bring the most freezing and lowest atmospheric pressure since so much of the atmosphere is frozen as dry ice,” said Hansen. “These are the major drivers of differences in seasonal behavior of carbon dioxide between the hemispheres. They’re not symmetric seasons.”

Mars’ Barchan Dunes, captured by the MRO’s HiRISE Camera. Credit: NASA/ HiRISE/MRO/LPL (UofA)

There are also significant differences in terms of elevation between the northern and southern hemispheres—i.e., the Northern Lowlands and Southern Highlands. Differences between the northern and southern polar terrain also influence seasonal change. For example, black dust fans are distributed across the southern landscape, resulting from dry ice sublimating and causing dust plumes. As Hansen explained:

“A layer of carbon dioxide ice builds in the southern hemisphere fall, and over the course of the winter, it thickens and it becomes translucent. Then in the spring, the sun comes up, and light penetrates this ice layer to the bottom enough that it warms up the ground underneath. Now, gas is trapped under pressure. It’s going to look for any weak spot in the ice and rupture like a champagne cork.”

Once the gas finds a weak spot and ruptures the ice, it blows dark plumes of dust into the atmosphere. The dust is blown in different directions depending on the wind direction and lands in fan-shaped deposits. This process shapes the landscape by creating gully channels, colloquially called “spiders” (araneiforms) because of their arachnid-like appearance. While the northern hemisphere also experiences dust plums in the Spring, the relatively flat terrain causes them to form dune-like features. Said Hansen:

“When the Sun comes up and begins to sublimate the bottom of the ice layer, there are three weak spots – one at the crest of the dune, one at the bottom of the dune where it meets the surface and then the ice itself can crack along the slope. No araneiform terrain has been detected in the north because although shallow furrows develop, the wind smooths the sand on the dunes.”

These findings demonstrate that Mars is an active place, not only over the course of eons but on a seasonal and even daily basis.

Further Reading: PSI, Icarus

The post There are Important Differences Between the Ice Caps on Mars appeared first on Universe Today.

Drought is a widespread concern in the Western U.S., and water managers across the region are developing groundwater management plans to conserve the essential resource. Groundwater is often pumped to the surface to irrigate crops, and meters that measure the flow of pumped water have historically offered the best information on groundwater use. These meters are rare, however, so scientists set out to determine whether OpenET, a platform that measures evapotranspiration using satellite data, could help fill this information gap.

Archaeology is the study of human prehistory, so it seems incongruous to use its methods to study how humans behave in space. But that’s what astronauts aboard the International Space Station are doing.

When the ISS was designed, it was built around specific tasks and needs. Living areas like latrines, exercise spaces, and food preparation and eating spaces are designed to make the space station an effective and agreeable place to work and live. But it’s impossible to get these things right in any kind of facility. The people who end up working and living on the ISS find their own ways to use the spaces, which might not align with the intended purpose.

In an effort to understand how astronauts really use the spaces on the ISS, astronauts adapted methods used in archaeology. A team led by Justin Walsh of Chapman University in California had astronauts on the ISS take daily photos to see how different areas on the station are really used. They published their results in research titled “Archaeology in space: The Sampling Quadrangle Assemblages Research Experiment (SQuARE) on the International Space Station. Report 1: Squares 03 and 05” in the journal PLOS One.

SQuARE is part of the International Space Station Archaeological Project (ISSAP.)

“ISSAP aims to fill a gap in social science investigation into the human experience of long-duration spaceflight. As the largest, most intensively inhabited space station to date, with over 270 visitors from 23 countries during more than 23 years of continuous habitation, the International Space Station (ISS) is the ideal example of a new kind of spacefaring community—”a micro-society in a mini-world,” the authors explain.

“Our primary goal is to identify how humans adapt to life in a new environment for which our species has not evolved, one characterized by isolation, confinement, and especially microgravity,” the researchers write. The microgravity is especially interesting. Its benefits are the ability to work and move in 360 degrees and to do experiments that are impossible on Earth. The downside is that anything unrestrained simply floats away.

According to the authors, this is the first time archaeological fieldwork has been used in space. SQuARE had four goals:

• To develop a new understanding of how humans adapt to life in an environmental context for which we are not evolutionarily adapted, using evidence from the observation of material culture;
• To identify disjunctions between planned and actual usage of facilities on a space station;
• To develop and test techniques that enable archaeological research at a distance; and
• To demonstrate the relevance of social science methods and perspectives for improving life in space.

SQuARE adapted a method archaeologists use to study archaeological sites called the shovel test pit. Shovel test pits are shallow pits excavated in a grid overlain a site to see what artifacts might be underground. They’re used in the first phase of an archaeological study and help scientists determine where to dig deeper in subsequent phases.

Obviously, nobody’s digging actual holes into the space station. Instead of holes, the ISS crew took pictures of six locations on the ISS every day for 60 days—between January and March 2022—to determine how they were being used. These images go beyond interviewing astronauts to see how they adapt to such an unusual working/living situation. The human mind being what it is, interviews can leave out details that might seem irrelevant but are actually revealing.

The research article in PLOS One concerns two of the six areas: the latrine/exercise equipment area and the maintenance area.

This cutaway image of the International Space Station’s US Orbital Segment shows the locations of Square 03 (at upper center, in yellow) and 05 (at lower right, in orange). Square 03 is the maintenance area, and Square 05 is the latrine/exercise area. Image Credit: Walsh et al. 2024.

“Using the photographs and an innovative web tool, we identified 5,438 instances of items, labelling them by type and function,” the authors explain in their research article. The ‘artifacts’ in the images included Post-It notes, writing tools, and an augmented reality headset. The research also includes astronaut activity reports which allowed for chronological cross-referencing.

This image shows Square 03 in the starboard Maintenance Work Area of the International Space Station. An open crew berth is on the right. The researchers developed an image analysis platform to process the images and identify artifacts. Image Credit: Walsh et al. 2024.

The results show that an area near the latrine/exercise space without a designated purpose was used to store toiletries, resealable bags, and a seldom-used computer. The maintenance area was repurposed. No maintenance was done there, and the space was mostly used for storage.

This image shows Square 05, the latrine/exercise area. The Advanced Resistive Exercise Device is at the far upper right on the overhead wall. The Treadmill with Vibration Isolation Stabilization System is outside of the image on the left. The Waste and Hygiene Compartment is directly behind the photographer. Image Credit: Walsh et al. 2024.

“One of the project goals is understanding cultural adaptations to the microgravity environment,” the authors explain in their research. They were especially interested in what they call ‘gravity surrogates,’ simple items used to keep things in their place. On Earth, we can just set a pen down on our desk, and it stays there until we need it again. But in microgravity, astronauts have to adapt.

The image of Square 05 shows an example of how astronauts adapt to their surroundings in unforeseen ways. The blue bar is a metal handrail used to help astronauts move around the ISS, but as NASA acknowledges, “they also serve as convenient locations for temporary mounting, affixing, or restraint of loose equipment and as attachment points for equipment.” The blue bar is just one of many examples of things with other uses serving as restraints in microgravity.

This figure from the research shows the number and type of artifacts in square 03. Restraints are the most plentiful objects. Image Credit: Walsh et al. 2024.

SQuARE shows how spaces get used in unintended ways. Square 03 was intended for maintenance work but is used differently. “But much of the time, there was nobody working here—a fact that is not captured by historic photos of the area precisely because nothing is happening,” the authors explain.

Instead it’s used as a pegboard, like one mounted on a wall in a home. It’s a convenient place to store all types of items, some of which aren’t even used in the space because there are so many attachment points.

The authors say that their work provides “insights into material culture,” and that their results can be used in future spacecraft design. They can also help them study the rest of the squares more effectively.

“The experiment is the first archaeology ever to happen off of the planet Earth. By applying a very traditional method for sampling a site to a completely new kind of archaeological context, we show how the ISS crew uses different areas of the space station in ways that diverge from designs and mission plans. Architects and planners of future space stations can learn valuable lessons from this work,” the researchers conclude.

The post Archaeological Methods Reveal How Astronauts Work on the International Space Station appeared first on Universe Today.

In counties in the US affected by a bat-killing disease, there has been a 31 per cent increase in insecticide use and an 8 per cent rise in infant mortality

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News of the asteroid 2024 RW1 impacting near the Philippines may have come as a shock this week, but space agencies and astronomers around the world are keeping an eye out to protect us

As the Washington Post and other sources report, the U.S. has charged six Hamas officials with criminal counts of terrorism connected with the October 7 attack on Israel:

U.S. officials unsealed charges Tuesday against senior Hamas leaders, accusing them of conspiring to provide material support to a terrorist organization, conspiring to murder Americans and conspiring to use weapons of mass destruction.

The criminal complaint against Hamas leader Yehiya Sinwar and others was made public as U.S. diplomats are preparing to present Israel and Hamas with a final hostage-release and cease-fire proposal, potentially as soon as this week.

Bizarrely, at least three of these officials are dead.  Another, Yahya Sinwar, the military head of Hamas, is scuttling around the tunnels of Gaza and is, at present, beyond reach. But at least one person, the political head of Hamas, and who lives in Doha, Qatar, is within the reach of U.S. courts. Here’s the list of those indicted, taken from the Times of Israel.Notes are mine except for those in quotes.

Yahya Sinwar, the military head of Hamas. Scuttling around the tunnels under Gaza. Sinwar served 22 years in an Israeli prison for terrorism until he was released in a prisoner swap and went on to plan the October 7 massacre (remember that when you start approving of such swaps to get the hostages back). One of the ironic things about Sinwar is that Israeli doctors saved his life by removing a malignant brain tumor when he was in prison, and he not only didn’t give up his hatred of Israel and Jews, but the nephew of the main doctor who saved him was killed in the October 7 massacre.

Ismail Haniyeh, former political head of Hamas who lived in Qatar but was assassinated (almost surely by Israel) by a bomb planted in his room during a visit to Tehran last July.

Marwan Issa, “the once-deputy leader of Hamas’s armed wing in Gaza, who was killed by Israel in March.”

Khaled Mashaal, “a Haniyeh deputy based in Doha and a former [political] leader of the group.”  Now that Haniyeh is dead, Sinwar has taken over political and military control of Hamas, but Mashaal is playing a very important role in the group, not to mention all the money that Hamas has in the hands of its members in Qatar.  Mashaal recently called for a return of Palestinians to conducting suicide attacks on Israelis.

Muhammad Deif, the longtime Hamas military wing chief, who Israel killed in July.  Wikipedia says it’s not sure he’s dead, though was crippled after several assassination attempts, but the IDF says it’s sure he’s dead, and on matters like this I trust the IDF more than Wikipedia.

Ali Baraka, “the Beirut-based head of Hamas’s external relations.”

Now I don’t know what the point of indicting three dead people is; if anything, it’s a purely symbolic gesture. The most likely explanation is that the indictment was issued in February and was just unsealed, and the three dead thugs were still alive in February.

But anybody indicted who is still alive and resides in Qatar can be subject to extradition, and that means Mashaal. The U.S. should ask for his extradition immediately, though given who’s in charge of America now, I doubt this will happen.

Which brings us to the Gaza “peace plan”. The U.S. is saying that it’s about to float a “take-it-or-leave-it” peace deal for Gaza, and although the details are hazy, it seems to involve a time-limited  ceasefire in hopes of a permanent one, a swap of some of the living and dead hostages (not all at once) for a pile of live Palestinians imprisoned in Israel, and nothing about the surrender of Hamas.

This is a plan that will fail, and it’s also short-sighted.  It will leave Hamas in power and will not end anti-Israel terrorism. If you want a good explication of its problems, read Bret Stephens’s column in the NYT yesterday, “A hostage deal is a poison pill for Israel” (link is archived).

Like me, Stephens is no fan of Netanyahu, but he thinks that the PM is right in his strategy about the war (read the column).  Stephens has always been the most sensible NYT op-ed writer about the war: far more cogent than, for example, Tom “I Know Nothing” Friedman. Stephens’s column, which once again I recommend, ends this way:

There are bright people who say that what Israel ought to do now is cut a deal, recover its hostages, take a breather and start preparing for the next war, probably in Lebanon. Israelis should remember that wars will be worse, and come more often, to those who fail to win them.

Here’s my own recommendations for ending the war. They may not work, but they seem sensible, and most of them are based on Malgorzata’s ideas:

a.) Call for the extradition of Mashaal now.

b.) Qatar should arrest all Hamas members finding refuge in that country and freeze their bank accounts (there are billions of dollars there, most of the money in the hands of Hamas). That money should be used to rebuild Gaza.

c.) The first two points should be done under a U.S. threat: do these things or face the removal of the U.S. military presence in Qatar (its base is shared with the RAF, so the UK would have to agree as well). We don’t need the base that badly (we have other bases in other Middle East nations), but Qatar desperately needs it, for without it, oil-rich Qatar will be taken over by countries like the UAE, Kuwait, and Saudi Arabia.(Qatar has almost no military of its own.) This would be a threat with real teeth. And the U.S. should be ready to follow through with it, as with all meaningful threats.

d.) Instead of confecting unworkable and, frankly, stupid peace plans, the U.S. should simply call for the unconditional surrender of Hamas and the instantaneous release of all the hostages.  Hamas will not surrender, of course, but anybody who values their life (and yes, there’s a rub there) must realize that Israel under Netanyahu has vowed to destroy the military capabilities of Hamas—and will do so. The Biden Administration (and Harris, should she win) should be giving nothing to terrorists like Hamas.

The moral right in this conflict lies with Israel, not with Hamas, and the U.S. should be calling for the terrorists to give up, end the war, and release the hostages. Remember again that the “take-it-or-leave-it” deal will not work and gives plenty of stuff to Hamas.

Needless to say, the U.S. should not be cutting aid to Israel, even though some European countries are.  Such cuts are again ludicrous and short-sighted given Israel’s care to kill as few Gazan civilians as possible combined with Hamas’s desire to get as many non-combatant Gazan civilians killed as possible to excite the world’s opprobrium against Israel. Right now, Europe, and to some extent the U.S., is doing pretty much what Hamas wants.

e.) What about the day after?  A two-state solution is not in the offing right now; that much is clear and amounts to rewarding Hamas for the October 7 attack. I suspect that a military occupation of Gaza will have to occur for some time, as happened in Germany and Japan after World War II.  At the same time, Israel and its allies should be grooming reasonable and peaceful Palestinians to take over running Gaza. (I’m not discussing the West Bank here.)

Yes, yes, I know all the weaknesses of this plan: Hamas won’t give up, the U.S. won’t threaten to dismantle a military base, no credible Palestinians who don’t want to destroy Israel will be found, etc. etc. If you want to pick at the plan, at least do something constructive and propose a better one, and one that doesn’t lead to Israel losing the war and facing many more October-7-like episodes.

But one thing is certain, something Bret Stephens encapsulates in his last sentence: all the “cease fire” proposals floating around now are guaranteed to leave Hamas in power, and thus to keep a constant threat of terrorism against Israel. And that means that peace will never be attained.

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