Category: Education

The Same Language, but …

We are so close yet in some ways so separate!

George Bernard Shaw once quoted that: “England and America are two countries separated by the same language.”

It seems a most apt way of introducing an article published by The Conversation.

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UK and US elections: 2 very different systems united by a common political language

Long, drawn-out campaigns just aren’t Rishi Sunak’s cup of tea. Chris J Ratcliffe/WPA Pool/Getty Images.

Garret Martin, American University School of International Service

Voters in the United Kingdom on May 22 learned the date they would be joining the many, many people casting ballots around the world in 2024.

In a surprise move, Prime Minister Rishi Sunak announced a snap election to be held on July 4 – six months earlier than many had expected. An early election is certainly a major gamble for the prime minister but one he felt was worth taking. With the ruling Conservative Party more than 20 percentage points behind opposition Labour in the latest polls, Sunak faces an uphill battle to stay in office.

The Labour Party, led by Keir Starmer, is heavily favored to return to power for the first time since 2010.

To a U.S. audience, many of the top issues in the election campaign will sound familiar: the economy, immigration, health care, Ukraine and Gaza. The choice of date, too, may ring a bell – and political soothsayers are already trying to read into what it means for the U.K. election to fall on Independence Day.

A person with a trash bin head gestures with his thumbs down to a person with a bucket as a head.
U.K. elections can be an odd affair in which mainstream politicians can rub shoulders with the likes of rival candidates Count Binface and Lord Buckethead. Oli Scarff/AFP via Getty Images

But as to the campaign itself – well, they do things a bit different on the other side of the pond. While Americans may be used to set terms and lengthy campaigns filled with endless advertising, in the U.K. such things are, to use a Britishism, “just not cricket.” Here are three main ways in which the British conduct their elections.

1. Election timeline

U.S. elections follow a predictable schedule. In 1845, Congress passed a law establishing a single day for federal elections to take place on “the Tuesday next after the first Monday in November.” Further, presidents are elected for a fixed four-year term, making the dates for upcoming votes knowable for the foreseeable future.

That isn’t the case in the United Kingdom. By convention, elections have been held on a Thursday since 1935. But the month of the vote has varied considerably. For the most part, they take place in late spring or early summer – but fall and winter elections are not unheard of.

The U.K. Parliament does have a fixed term of five years, with elections automatically scheduled once that time has lapsed. In practice, however, parliaments have rarely gone the full five years.

Indeed, prime ministers in the United Kingdom have the authority to request the dissolution of Parliament at any time. They can do so without the approval of the cabinet, and so prime ministers have taken liberal advantage of their ability to control the timing of the election to try and gain an advantage.

Many thought that Sunak may have been eyeing an election later in the year, but a number of factors, including economic forecasts and not wanting the distraction of a U.S. election, may have factored in to him calling an earlier-than-expected vote.

2. Campaign rules

Besides the shifting timing, the nature and rules of the campaign are also very different in the United Kingdom. This starts with the sheer brevity of the campaign. Once Parliament is dissolved, the election must take place 25 working days later. This means the parties have a mere six weeks to make their case to the public.

And unlike in a presidential system, voters in the United Kingdom do not cast a ballot for the person they want to see lead the country. Instead, the U.K. is divided into 650 distinct constituencies; voters pick their preferred candidate to represent their local constituency in Parliament. The party with the most seats typically wins the election, and the leader of that party has the opportunity to become prime minister and govern as a single-party government or as part of a coalition.

U.K. election campaigns are also subject to strict rules to maintain neutrality. Once the campaign starts, the period of “purdah” kicks in, which imposes certain restrictions on government activities. This involves, for instance, strict prohibitions on government ministers announcing new initiatives to affect the election or using public funds for political purposes.

In the same manner, civil servants – employees of the crown who work for the government but are not political appointees – are required to maintain strict impartiality and not become involved in partisan debates.

Moreover, the Office of Communications, the United Kingdom’s independent media regulatory authority, also enforces strict rules for broadcast media, including television and radio. The 2003 Communications Act requires that all broadcast media must cover the elections in an impartial manner, providing coverage of all parties, even if they do not assign equal time.

A man in a white shirt chats to a man in a blazer. Bith hold cups.
Opposition leader Keir Starmer, left, poses on the campaign trail with what the photographer says is a cup of coffee … but which I strongly suspect is actually tea. Leon Neal/Getty Images

Broadcast media is also not allowed, on polling day, to suggest the outcome of the vote before polls are closed.

In a huge departure from the U.S., U.K. political parties are banned from buying television ads, but this rule does not apply to streaming television.

3. The role of money

The limited role of money is another distinct feature in U.K. elections. Even factoring in the different population sizes, U.K. elections are significantly cheaper than their counterparts in the United States.

Indeed, total campaign spending in the 2020 U.S. elections, covering presidential and congressional races, hit more than US$14 billion. That scale completely dwarfs how much parties and candidates will be able to spend in the 2024 United Kingdom election.

Through regulations established by the Electoral Commission, an independent government agency, a British party that competes in all constituencies in the United Kingdom will be allowed to spend just over £34 million (around $43 million) in total to support all candidates.

That figure in itself marks an 80% increase from the allowance at the last election in 2019, so to factor for inflation since limits were set in 2000.

Individual candidates can spend funds to support their campaign. But the amount, defined partly by the size of the constituency, is low and in the scale of tens of thousands of pounds. This is again a far cry from some of the more expensive congressional races in the United States, where even primary elections could attract close to $30 million in spending.

Challenging times ahead

As a result, both Sunak and Starmer will have only a short time – and limited funds – to make their case to voters. Whoever wins will face a very challenging situation at home and abroad, with little to no respite. According to the think tank Institute for Fiscal Studies, the state of public finances is “a dark cloud that hangs over the election.” And then there is the delicate matter of maintaining a special relationship with the U.S. – a country that may itself have a very different political landscape after it goes to the polls later in the year.

Garret Martin, Senior Professorial Lecturer, Co-Director Transatlantic Policy Center, American University School of International Service

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

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As I have frequently said, I feel English and love the fact that I speak with an English accent. Yet I adore, along with Jean, where we live just outside Merlin in Southern Oregon. I wouldn’t want to live anywhere else in the world.

Politically we are in very strange times, as was said right at the end of this article.

Picture Parade Four Hundred and Thirty-Four

A change from our dear dogs.

I really hope you enjoy these as much as we have!

There is quite a long introduction but it helps enormously in explaining the background to the photographs.

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This image is released as part of the Early Release Observations from ESA’s Euclid space mission. All data from these initial observations are made public on 23 May 2024 – including a handful of unprecedented new views of the nearby Universe.

The Dorado Group of galaxies is one of the richest galaxy groups in the southern hemisphere. Here, Euclid captures signs of galaxies evolving and merging ‘in action’, with beautiful tidal tails and shells visible as a result of ongoing interactions. As Dorado is a lot younger than other clusters (like Fornax), several of its constituent galaxies are still forming stars and remain in the stage of interacting with one another, while others show signs of having merged relatively recently. In size, it sits between larger galaxy clusters and smaller galaxy groups, making it a useful and fascinating object to study with Euclid.

This dataset is enabling scientists to study how galaxies evolve and collide over time in order to improve our models of cosmic history and understand how galaxies form within halos of dark matter, with this new image being a true testament to Euclid’s immense versatility. A wide array of galaxies is visible here, from very bright to very faint. Thanks to Euclid’s unique combination of large field-of-view and high spatial resolution, for the first time we can use the same instrument and observations to deeply study tiny (small objects the size of star clusters), wider (the central parts of a galaxy) and extended (tidal merger tails) features over a large part of the sky.

Scientists are also using Euclid observations of the Dorado Group to answer questions that previously could only be explored using painstakingly small snippets of data. This includes compiling a full list of the individual clusters of stars (globular clusters) around the galaxies seen here. Once we know where these clusters are, we can use them to trace how the galaxies formed and study their history and contents. Scientists will also use these data to hunt for new dwarf galaxies around the Group, as it did previously with the Perseus cluster.

The Dorado Group lies 62 million light-years away in the constellation of Dorado.

All images are: ESA/Euclid/Euclid Consortium/NASA, image processing by J.-C. Cuillandre (CEA Paris-Saclay), G. Anselmi

Composite image of five astronomical views, three at the top, two at the bottom. All are dotted with stars and galaxies against a black background. Striking features are three bright glowing structures in the first image. The second image has an orange veil-like structure spanning across. In the third we see a stunning spiral galaxy with many arms. The fourth image features light from galaxies lying behind a bright cluster distorted into arcs. And the fifth image shows a variety of galaxies in all shapes and sizes

An elongated bright cloudy ellipse, tilted at a 45-degree angle in front a black background dotted with small white stars and galaxies. Above the ellipse floats a smaller, cloudy ellipsoid.

A dark orange filamentary structure seems to enclose stars. Centrally, three bright star-forming regions shine brightly through the orange veil in a traffic-light like formation.

The image shows hundreds of stars, some brighter than others. The stars seem to light up their cloud-like surroundings in purple. A darker structure spans the image in an arch from upper left to bottom right. The bottom of this arch runs into dense clouds forming the darkest part of the image.

This breathtaking image features Messier 78 (the central and brightest region), a vibrant nursery of star formation enveloped in a shroud of interstellar dust. This image is unprecedented – it is the first shot of this young star-forming region at this width and depth.

Today, (May 23rd, 2024) ESA’s Euclid space mission releases five unprecedented new views of the Universe. The never-before-seen images demonstrate Euclid’s ability to unravel the secrets of the cosmos and enable scientists to hunt for rogue planets, use lensed galaxies to study mysterious matter, and explore the evolution of the Universe.

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Fabulous. It is an example of just how clever the science is getting!

I can only look at these images in awe. For example, Messier 78 is part of the Orion constellation, has a radius of five light-years, and is only 1,600 light-years from Planet Earth. (Using the figure from below of the distance of a single light-year, that puts Messier 78 as 1,600 times 6 trillion miles from our planet or 9,600 trillion miles.)

And in case you forgot it, one light year is:

The light-year is a measure of distance, not time. It is the total distance that a beam of light, moving in a straight line, travels in one year. To obtain an idea of the size of a light-year, take the circumference of the earth (24,900 miles), lay it out in a straight line, multiply the length of the line by 7.5 (the corresponding distance is one light-second), then place 31.6 million similar lines end to end. The resulting distance is almost 6 trillion (6,000,000,000,000) miles!

The Quantum Field Theory

This is on the edge of my understanding!

Patrice Ayme recently posted an essay called Relativistic Length Contraction Busts Helium3! As I said in my comment to that post:

“This is far ahead of my knowledge of science. I applaud you for writing this despite me not understanding it”

So it may seem a little strange that I now publish the following. It was published originally on Skeptic. It is quite a long video but, please, settle down and watch it.

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Sean Carroll is creating a profoundly new approach to sharing physics with a broad audience, one that goes beyond analogies to show how physicists really think. He cuts to the bare mathematical essence of our most profound theories, explaining every step in a uniquely accessible way.

Quantum field theory is how modern physics describes nature at its most profound level. Starting with the basics of quantum mechanics itself, Sean Carroll explains measurement and entanglement before explaining how the world is really made of fields. You will finally understand why matter is solid, why there is antimatter, where the sizes of atoms come from, and why the predictions of quantum field theory are so spectacularly successful. Fundamental ideas like spin, symmetry, Feynman diagrams, and the Higgs mechanism are explained for real, not just through amusing stories. Beyond Newton, beyond Einstein, and all the intuitive notions that have guided homo sapiens for millennia, this book is a journey to a once unimaginable truth about what our universe is.

Sean Carroll

Sean Carroll is Homewood Professor of Natural Philosophy at Johns Hopkins University, and Fractal Faculty at the Santa Fe Institute. He is host of the Mindscape podcast, and author of From Eternity to HereThe Particle at the End of the UniverseThe Big Picture, and Something Deeply Hidden. He has been awarded prizes and fellowships by the National Science Foundation, NASA, the American Institute of Physics, the Royal Society of London, and many others. He lives in Baltimore with his wife, writer Jennifer Ouellette. His new book series, The Biggest Ideas in the Universe, includes one volume on Space, Time, and Motion, and this new volume on Quanta and Fields.

Shermer and Carroll discuss:

  • the measurement problem in physics
  • wave functions
  • entanglement
  • fields
  • interactions
  • scale
  • symmetry
  • gauge theory
  • phases
  • matter
  • atoms
  • What is time?
  • Is math all there is? Is math universal?
  • double-slit experiment
  • superposition
  • metaphors in science
  • limitations of models and theories of reality
  • What banged the Big Bang?
  • Why is there something rather than nothing?
  • Second Laws of Thermodynamics and directionality in nature
  • Is there a place for God in scientific epistemology?
  • many interpretations of quantum mechanics
  • multiple dimensions and the multiverse
  • string theory and the multiverse
  • known unknowables: Are there things we can never know, even in principle?
    • God
    • hard problem of consciousness
    • free will/determinism.

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I’m assuming you have watched the video because in a world that is pre-occupied with the trivial this is just the opposite. Sean shares his physics in a profoundly different and powerful way!

Those solar flares

Plenty of news stories to choose from.

A massive solar storm is expected to hit Earth, possibly impacting our communication grids.

NOAA presented a report for May 12th that said:

EVENT:
A coronal mass ejection (CME) is an eruption of solar material. When they arrive at Earth, a geomagnetic storm can result. Watches at this level are very rare.
TIMING:
Several CMEs are anticipated to merge and arrive at Earth on May 12th.
EFFECTS:
The general public should visit our webpage to keep properly informed. The aurora mav become
visible over much of the northern half of the country, and maybe as far south as Alabama to
northern California.

Meanwhile, Earth.com presented the following (and it is a long but extremely interesting report):

Update: New solar flare, secondary peak today in this “Extreme” solar storm

By Eric Ralls, Earth.com staff writer

Update — May 12, 2024 at 8:04 PM EDT

The Sun released another powerful burst of energy today, known as a solar flare, reaching its peak intensity at 12:26 p.m. Eastern Time. The flare originated from a region on the Sun’s surface called sunspot Region 3664, which has been quite active lately.

NASA’s Solar Dynamics Observatory, a spacecraft that keeps a constant eye on our nearest star, was able to capture a striking image of this latest solar outburst.

Solar flares are immense explosions on the Sun that send energy, light and high speed particles into space. They occur when the magnetic fields in and around the Sun reconnect, releasing huge amounts of stored magnetic energy. Flares are our solar system’s most powerful explosive events.

The NOAA’s Space Weather Prediction Center (SWPC) has extended the Geomagnetic Storm Warning until the afternoon of May 13, 2024.

Understanding different classes of solar flares

Today’s flare was classified as an X1.0 flare. Solar flares are categorized into classes based on their strength, with X-class flares being the most intense. The number provides additional information about the flare’s strength within that class. An X1 flare is ten times more powerful than an M1 flare.

These energetic solar eruptions can significantly impact Earth’s upper atmosphere and near-Earth space environment. Strong flares can disrupt high-frequency radio communications and GPS navigation signals. The particle radiation and X-rays from flares can also pose potential risks to astronauts in space.

Additionally, the magnetic disturbances from flares, if particularly strong, have the ability to affect electric power grids on Earth, sometimes causing long-lasting blackouts.

However, power grid problems are more commonly caused by coronal mass ejections (CMEs), another type of powerful solar eruption often associated with strong flares.

Scientists are always on alert, monitoring the Sun for these explosive events so that any potential impacts can be anticipated and prepared for. NASA’s Solar Dynamics Observatory, along with several other spacecraft, help provide this early warning system.

Stay tuned to Earth.com and the Space Weather Prediction Center (SWPC) for updates.

Update — May 12, 2024 at 9:41 AM EDT

The ongoing geomagnetic storm is expected to intensify later today, Sunday, May 12, 2024. Several intense Coronal Mass Ejections (CMEs), traveling from the Sun at speeds up to 1,200 miles per second, are anticipated to reach the Earth’s outer atmosphere by late afternoon.

Over the past two days, preliminary reports have surfaced regarding power grid irregularities, degradation of high-frequency communications, GPS outages, and satellite navigation issues. These disruptions are likely to persist as the geomagnetic storm strengthens.

Auroras visible across the continental United States

Weather permitting, auroras will be visible again tonight over most of the continental United States. This spectacular display of lights is a direct result of the ongoing geomagnetic storm.

The threat of additional strong solar flares and CMEs, which ultimately result in spectacular aurora displays, will persist until the large and magnetically complex sunspot cluster, NOAA Region 3664, rotates out of view of the Earth. This is expected to occur by Tuesday, May 14, 2024.

Solar activity remains at moderate to high levels

Solar activity has been at moderate levels over the past 24 hours. Region 3664 produced an M8.8/2b flare, the strongest of the period, on May 11 at 15:25 UTC. A CME signature was observed, but an Earth-directed component is not suspected.

Solar activity is expected to remain at high levels from May 12-14, with M-class and X-class flares anticipated, primarily due to the flare potential of Region 3664.

Energetic particle flux and solar wind enhancements

The greater than 10 MeV proton flux reached minor to moderate storm levels on May 10. Additional proton enhancements are likely on May 13-14 due to the flare potential and location of Region 3664.

The solar wind environment has been strongly enhanced due to continued CME activity. Solar wind speeds reached a peak of around 620 miles/second on May 12 at 00:55 UTC. 

A strongly enhanced solar wind environment and continued CME influences are expected to persist on May 12-13, and begin to wane by May 14.

Geomagnetic field reaches G4 “Severe” storm levels

The geomagnetic field reached G4 (Severe) geomagnetic storm levels in the past 24 hours due to continued CME activity. 

Periods of G3 (Strong) geomagnetic storms are likely, with isolated G4 levels possible, on May 12. Periods of G1-G3 (Minor-Strong) storming are likely on May 13, and periods of G1 (Minor) storms are likely on May 14.

Stay informed and enjoy the light show

As the geomagnetic storm rages on, we must remain vigilant and prepared for the potential consequences. Monitor official sources for updates on the storm’s progress and any further disruptions to our technological infrastructure. 

Take a moment to step outside tonight and marvel at the incredible auroras painting the night sky — a stunning reminder of the raw power and beauty of our Sun.

While these solar storms can cause temporary inconveniences, they also provide us with an opportunity to reflect on our place in the universe and the awe-inspiring forces that shape our world.

Stay tuned to Earth.com and the Space Weather Prediction Center (SWPC) for updates.

Understanding geomagnetic solar storms

Geomagnetic storms are disturbances in the Earth’s magnetic field caused by the interaction between the solar wind and the planet’s magnetosphere. These storms can have significant impacts on technology, infrastructure, and even human health.

Causes of geomagnetic storms

Geomagnetic storms typically originate from the Sun. They are caused by two main phenomena:

  • Coronal Mass Ejections (CMEs): Massive bursts of plasma and magnetic fields ejected from the Sun’s surface.
  • Solar Flares: Intense eruptions of electromagnetic radiation from the Sun’s surface.

When these events occur, they send charged particles streaming towards Earth at high speeds, which can take anywhere from one to five days to reach our planet.

Effects on Earth’s magnetic field

As the charged particles from CMEs and solar flares reach Earth, they interact with the planet’s magnetic field. This interaction causes the magnetic field lines to become distorted and compressed, leading to fluctuations in the strength and direction of the magnetic field.

Impacts on technology and infrastructure

Geomagnetic storms can have significant impacts on various aspects of modern technology and infrastructure:

  • Power Grids: Strong geomagnetic storms can induce currents in power lines, causing transformers to overheat and potentially leading to widespread power outages.
  • Satellite Communications: Charged particles can damage satellite electronics and disrupt communication signals.
  • GPS and Navigation Systems: Geomagnetic disturbances can interfere with the accuracy of GPS and other navigation systems.
  • Radio Communications: Storms can disrupt radio signals, affecting communication systems that rely on HF, VHF, and UHF bands.

Aurora Foundation

One of the most visually striking effects of geomagnetic storms is the formation of auroras, also known as the Northern and Southern Lights.

As charged particles collide with Earth’s upper atmosphere, they excite oxygen and nitrogen atoms, causing them to emit light in various colors.

Monitoring and forecasting

Scientists continuously monitor the Sun’s activity and use various instruments to detect and measure CMEs and solar flares.

This data helps them forecast the timing and intensity of geomagnetic storms, allowing for better preparedness and mitigation of potential impacts.

Historical geomagnetic storms

Some of the most notable geomagnetic storms in history include:

  • The Carrington Event (1859): The most powerful geomagnetic storm on record, which caused widespread telegraph system failures and auroras visible as far south as the Caribbean.
  • The Halloween Storms (2003): A series of powerful geomagnetic storms that caused power outages in Sweden and damaged transformers in South Africa.
  • The Quebec Blackout (1989): A geomagnetic storm that caused a massive power outage affecting millions of people in Quebec, Canada.

Understanding geomagnetic storms is crucial for protecting our technology-dependent world and mitigating the potential risks associated with these powerful space weather events.

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This was a very lucky moment

A hiker in Arizona saw a dog hiding, and scared!

This is such a lovely tale and one that defies all the odds.

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Hiker Stops In His Tracks When He Sees ‘Amber Eyes’ Peeking Out From Crevice

No one has any idea how she got up there ⛰️

By Caitlin Jill Anders, Published on May 3, 2024

A Good Samaritan was hiking a narrow, slippery trail on Lookout Mountain in Phoenix, Arizona, and was very focused on his hike until something caught his eye. He was about half a mile up the mountain and a little off the beaten path when he caught a glimpse of light reflecting off of something — and was shocked to realize it was a pair of amber eyes.

The eyes belonged to a very scared dog huddled up in a tiny hole in the side of the mountain. She was completely blending in with her surroundings, and if she hadn’t had such piercing eyes, the hiker may not have noticed her. He had no idea how she’d managed to get up there, but it was clear that she’d been stuck for a while and might not be able to last much longer.

The Good Samaritan quickly contacted the Arizona Humane Society (AHS), who sent two emergency animal medical technicians, Tracey Miiller and Ruthie Jesus, out to help while he waited with the pup until they arrived. The dog was definitely scared but seemed open to getting help.

“This Good Samaritan waited probably almost two hours, and then we found this incredible dog, who incidentally is literally the same color as the dirt,” Jesus said in a press release. “She blends in so much, the complainant told us that he wanted to call her Bright Eyes because when he hiked past her, that was literally the only thing he saw was her amber bright eyes staring back at him.”

After a quick and careful assessment on the side of the mountain, the technicians determined that Bright Eyes was dangerously dehydrated with cut-up paws and a wound on her rear end.

“She was really sweet and letting me pet her head, but she absolutely did not want to come out of that den, so I kind of had to just sort of pull her out,” Jesus said.

She was definitely too weak to walk with her rescuers down the mountain, so the technicians took turns carrying her until they reached the ambulance. Bright Eyes was calm the whole time, so grateful to finally be safe.

“She actually really just relaxed and seemed to enjoy being carried down the mountain,” Jesus said. “But it was a very teeny-tiny rocky trail that was pretty slick, and so Tracey and I took turns carrying her down the mountain, and she was just an absolute angel. She knew we were getting her to safety.”

It’s still a mystery as to how or why Bright Eyes ended up on the mountain in the first place, but the important thing is someone found her and now she’s getting the care she needs.

“We were so elated to be able to get her,” Jesus said. “She was just so dehydrated. I think she’d probably been up there several days and that was probably her last day, and this Good Samaritan really just saved her life.”

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Frankly, there’s nothing more to add to this account. For it captured all that so many people do for dogs.

P.S. All the above photographs were supplied by the Arizona Humane Society. Please take a look at their website.

Stonehenge

A fascinating account of this English site.

Although I was born in London in 1944, as a result of an affair between my father and mother, my father had two daughters with his wife, Maud, and Rhona and Corinne, for they were their names, took me under their wing. In the 50s Maud, Rhona and Corinne all moved to Devon and I started going regularly to Totnes. When I started driving I usually stopped for a break close by Stonehenge so the site has a special interest to me.

So when I saw this article in The Conversation it had to be shared.

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Stonehenge may have aligned with the Moon as well as the Sun

Stonehenge during winter solstice sunset Chuta Kooanantkul/Shutterstock

Fabio Silva, Bournemouth University; Amanda Chadburn, Bournemouth University, and Erica Ellingson, University of Colorado Boulder

When it comes to its connection to the sky, Stonehenge is best known for its solar alignments. Every midsummer’s night tens of thousands of people gather at Stonehenge to celebrate and witness the rising Sun in alignment with the Heel stone standing outside of the circle. Six months later a smaller crowd congregates around the Heel stone to witness the midwinter Sun setting within the stone circle.

But a hypothesis has been around for 60 years that part of Stonehenge also aligns with moonrise and moonset at what is called a major lunar standstill. Although a correlation between the layout of certain stones and the major lunar standstill has been known about for several decades, no one has systematically observed and recorded the phenomenon at Stonehenge.

This is what we are aiming to do in a project bringing together archaeologists, astronomers and photographers from English Heritage, Oxford, Leicester and Bournemouth universities as well as the Royal Astronomical Society.

There is now an abundance of archaeological evidence that indicates the solar alignment was part of the architectural design of Stonehenge. Around 2500 BC, the people who put up the large stones and dug an avenue into the chalk seemed to want to cement the solstice axis into the architecture of Stonehenge.

Archaeological evidence from nearby Durrington Walls, the place where scientists believe the ancient people who visited Stonehenge stayed, indicates that of the two solstices it was the midwinter one that drew the largest crowd.

But Stonehenge includes other elements, such as 56 pits arranged in a circle, an earthwork bank and ditch, and other smaller features such as the four station stones. These are four sarsen stones, a form of silicified sandstone common in Wiltshire, that were carefully placed to form an almost exact rectangle encompassing the stone circle.

Only two of these stones are still there, and they pale in comparison to their larger counterparts as they are only a few feet high. So what could their purpose be?

Aerial view of Stonehenge
Only two of the station stones are still there. Drone Explorer/Shutterstock

Lunar standstill

The rectangle that they form is not just any rectangle. The shorter sides are parallel to the main axis of the stone circle and this may be a clue as to their purpose. The longer sides of the rectangle skirt the outside of the stone circle.

It is these longer sides that are thought to align with the major lunar standstill. If you marked the position of moonrise (or set) over the course of a month you would see that it moves between two points on the horizon. These southern and northern limits of moonrise (or set) change on a cycle of 18.6 years between a minimum and a maximum range – the so-called minor and major lunar standstills, respectively.

The major lunar standstill is a period of about one and a half to two years when the northernmost and southernmost moonrises (or sets) are furthest apart. When this happens the Moon rises (and sets) outside the range of sunrises and sets, which may have imbued this celestial phenomenon with meaning and significance.

Diagram showing Moonrise positions on a horizon.
The range of Moonrise positions on the horizon during minor and major lunar standstills. Fabio Silva, CC BY-NC

The strongest evidence we have for people marking the major lunar standstill comes from the US southwest. The Great House of Chimney Rock, a multi-level complex built by the ancestral Pueblo people in the San Juan National Forest, Colorado, more than 1,000 years ago.

It lies on a ridge that ends at a natural formation of twin rock pillars – an area that has cultural significance to more than 26 native American tribal nations. From the vantage point of the Great House, the Sun will never rise in the gap between the pillars.

However, during a major standstill the Moon does rise between them in awe-inspiring fashion. Excavations unearthed preserved wood that meant researchers could date to the year episodes of construction of the Great House.

Of six cutting dates, four correspond to major lunar standstill years between the years AD1018 and AD1093, indicating that the site was renewed, maintained or expanded on consecutive major standstills.

Returning to southern England, archaeologists think there is a connection between the major lunar standstill and the earliest construction phase of Stonehenge (3000-2500 BC), before the sarsen stones were brought in.

Several sets of cremated human remains from this phase of construction were found in the southeastern part of the monument in the general direction of the southernmost major standstill moonrise, where three timber posts were also set into the bank. It is possible that there was an early connection between the site of Stonehenge and the Moon, which was later emphasised when the station stone rectangle was built.

The major lunar standstill hypothesis, however, raises more questions than it answers. We don’t know if the lunar alignments of the station stones were symbolic or whether people were meant to observe the Moon through them. Neither do we know which phases of the Moon would be more dramatic to witness.

A search for answers

In our upcoming work, we will be trying to answer the questions the major lunar standstill hypothesis raises. It’s unclear whether the Moon would have been strong enough to cast shadows and how they would have interacted with the other stones. We will also need to check whether the alignments can still be seen today or if they are blocked by woods, traffic and other features.

The Moon will align with the station stone rectangle twice a month from about February 2024 to November 2025, giving us plenty of opportunities to observe this phenomenon in different seasons and phases of the Moon.

To bring our research to life, English Heritage will livestream the southernmost Moonrise in June 2024, and host a series of events throughout the year, including talks, a pop-up planetarium, stargazing and storytelling sessions.

Across the Atlantic, our partners at the US Forest Service are developing educational materials about the major lunar standstill at Chimney Rock National Monument. This collaboration will result in events showcasing and debating the lunar alignments at both Stonehenge and at Chimney Rock.

Fabio Silva, Senior Lecturer in Archaeological Modelling, Bournemouth University; Amanda Chadburn, Member of Kellogg College, University of Oxford and Visiting Fellow in Archaeology, Bournemouth University, and Erica Ellingson, Professor in Astrophysics, Emeritus, University of Colorado Boulder

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

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Well I learnt something from this, which just goes to show that we are never too old to learn.

To come back to the article, the skills of those ancient peoples were just awe-inspiring.

Picture Parade Four Hundred and Twenty-Nine, not!

It is about Whale songs and is just a fabulous sound!

Last Friday there was an item on the BBC about whale song. It appears I can publish the article for you all. It is my choice over my regular Sunday Picture Parade. I hope you agree! Update: The track just 26 seconds long cannot be reproduced in this post.

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Whale song mystery solved by scientists

21 February 2024, By Helen Briggs and Victoria Gill,Science correspondents, BBC News

Humpback whale breaching near Bering Island, Kamchatka, Russia – Olga Filatova, University of Southern Denmark

Scientists have worked out how some of the largest whales in the ocean produce their haunting and complex songs.

Humpbacks and other baleen whales have evolved a specialised “voice box” that enables them to sing underwater. 

The discovery, published in the journal Nature, has also revealed why the noise we make in the ocean is so disruptive for these ocean giants. 

Whale song is restricted to a narrow frequency that overlaps with the noise produced by ships. 
“Sound is absolutely crucial for their survival, because it’s the only way they can find each other to mate in the ocean,” explained Prof Coen Elemans, of the University of Southern Denmark, who led the study. 

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“[These are some] of the most enigmatic animals that ever lived on the planet,” he told BBC News. “They are amongst the biggest animals, they’re smart and they’re highly social.”

Humpback whale song (For whatever reason the track cannot be listened to on this blog. That is a great shame as the song is magnificent. So please go to the BBC website for this; the link is https://www.bbc.com/news/science-environment-68358414 )

Baleen whales are a group of 14 species, including the blue, humpback, right, minke and gray whale. Instead of teeth, the animals have plates of what is called baleen, through which they sieve huge mouthfuls of tiny creatures from the water.

Exactly how they produce complex, often haunting songs has been a mystery until now. Prof Elemans said it was “super-exciting” to have figured it out.

A diver descends between three juvenile humpback whales the size of buses – Karim Iliya

He and his colleagues carried out experiments using larynxes, or “voice boxes”, that had been carefully removed from three carcasses of stranded whales – a minke, a humpback and a sei whale. They then blew air through the massive structures to produce the sound. 

In humans, our voices come from vibrations when air passes over structures called vocal folds in our throat. Baleen whales, instead, have a large U-shaped structure with a cushion of fat at the top of the larynx.

This vocal anatomy allows the animals to sing by recycling air, and it prevents water from being inhaled.

Artwork indicating the cartilages of the larynx in a humpback whale – Patricia Jaqueline Matic, Vienna

The researchers produced computer models of the sounds and showed that baleen whale song is restricted to a narrow frequency which overlaps with noise produced by shipping vessels. 

“They cannot simply choose to, for example, sing higher to avoid the noise we make in the ocean,” explained Prof Elemans. 

His study demonstrated how our ocean noise could prevent whales from communicating over long distances. That knowledge could be vital for the conservation of humpbacks, blue whales and other endangered giants of the sea.

It also provides insight into questions that researchers have been asking for decades about these eerie songs, which some sailors used to attribute to ghosts or mythical sea creatures.

Whale communication expert Dr Kate Stafford, from Oregon State University, called the study “groundbreaking”. 

“The production and reception of sound is the most important sense for marine mammals, so any studies that elucidate how they make sounds has the potential to move the field forward,” she told BBC News.

Researchers say evidence of the harm ocean noise pollution can do has been building for decades –
Alamy

The research also paints an evolutionary picture – of how the ancestors of whales returned to the oceans from the land, and the adaptations that made it possible to communicate underwater.

The way so-called toothed whales produce sound is better understood, because the animals are easier to study. These marine mammals, which include dolphins, orcas, sperm whales and porpoises, blow air through a special structure in their nasal passages.

Dr Ellen Garland, from the Sea Mammal Research Unit at the University of St Andrews, said: “I’ve always wondered exactly how baleen whales – especially humpbacks, which my research is focused on – actually produce the variety of sounds they do.

“Studying large whales is extremely challenging at the best of times, but trying to uncover how they produce sound when you may not even be able to see them underwater while vocalising is an added level of difficulty, so these researchers have been very creative.”

Dr Stafford added that the mammals’ ability to make such complex vocal signals was “remarkable” and highlighted “how special these animals are”.

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There! I do hope you all agree that this was very worthwhile. Plus, you all got to listen to those twenty-six seconds of the very beautiful sound.

A good night’s sleep?

This article has some deeper implications.

As 99% of you know, Jean, my wife, has Parkinson’s Disease. One of the characteristics of the disease is the effect it has on sleeping; Jean frequently has a bad night. Plus, our two dogs, Cleopatra and Oliver sleep in the bedroom on dog beds.

But if I was on my own I would find it difficult not to encourage our dogs to sleep on our double bed. That’s my assessment, at least! Over to The Conversation on the topic.

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Could sharing a bedroom with your pets be keeping you from getting a good night’s sleep?

Your dog may not be the best sleep partner. gollykim/E+ via Getty Images

Brian N. Chin, Trinity College

Sleeping with your dog in the same room could be negatively affecting your sleep quality, according to my team’s recently published research in Scientific Reports.

We recruited a nationally representative sample of more than 1,500 American adults who completed questionnaires assessing their sleep habits. Overall, about half of the participants reported co-sleeping with pets – defined in our study as sleeping in the same room with your pet for at least part of the night.

Next, our research team compared the sleep habits of people who did and didn’t co-sleep with pets. Our analyses revealed that participants who co-slept with pets had poorer sleep quality and more insomnia symptoms than those who did not. These findings persisted even after accounting for demographic differences between these groups. When considering pet type, we found evidence for a negative effect on sleep when co-sleeping with dogs but no evidence for a negative effect on sleep when co-sleeping with cats.

Orange and white cat sleeping against the covered legs of their owner sleeping in bed
Cats may have less of a negative effect on sleep than dogs when sharing the same room with their owners. Lewis Tse Pui Lung/iStock via Getty Images Plus

Surprisingly, 93% of people in our study who co-slept with their pets believed that their pets had either a positive or neutral overall effect on their sleep. Although more research is needed, these findings could suggest that most people are unaware of the potential negative effects their pets may have on their sleep.

Why it matters

Most pet owners report that their pets have a generally positive effect on their mental health. Pets can improve their owners’ health in numerous ways during the day, such as by encouraging physical activity, promoting a daily routine and providing love and companionship.

However, our study fills an important knowledge gap by indicating that co-sleeping with pets can affect sleep quality. Good sleep is a pillar of health and wellness. Even though pets may have an overall positive effect on mental health, it is possible that some of this benefit may be undermined if they are also causing you to lose sleep at night.

Although some people report that co-sleeping with their pets can provide them with a sense of comfort or intimacy, it is important for people sharing a bedroom with their pets to be aware of their potential to serve as a source of nighttime noise, heat or movement that can disrupt your ability to fall or stay asleep.

What still isn’t known

Survey-based studies like ours are unable to prove that co-sleeping with pets causes disrupted sleep, although there is some evidence suggesting that this could be the case.

One important factor that our study did not assess was whether participants were also co-sleeping with other people like a spouse or child. Previous research suggests that sharing a bed with other people can also affect our sleep and that the mental health benefits of pet ownership could be stronger for people with a romantic partner.

Chocolate Labrador dog sleeping on owner's bed, sunlight streaming in through window
Pets provide many health benefits during the day, but consider keeping them out of your bed at night. Justin Paget/DigitalVision via Getty Images

What’s next

It probably isn’t realistic for most people to just stop co-sleeping with their pets. So, what should someone do to improve their sleep if they already share a bed with their pets?

Some expert tips include choosing a mattress that is large enough for you and your pets, washing and changing your bedding regularly, and establishing and maintaining a consistent bedtime routine with your pets. Further research is needed to identify more specific habits and routines that pet owners can adopt to ensure a good night’s sleep when sharing the bedroom with their pets.

The Research Brief is a short take about interesting academic work.

Brian N. Chin, Assistant Professor of Psychology, Trinity College

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

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Coming back to Jean and me at least we have a pretty regular routine with us going to our bedroom around 7pm to 8pm. In the morning over our daily coffees I always ask Jean what sort of night she had. Yesterday morning Jean replied that she had had a poor night. My judgement is that Jean has roughly one in two poor nights.

To state the obvious, it’s in the numbers!

A wonderful, and educational, item on The Conversation.

I was listening to an item on the BBC yesterday morning and counting came up. The need for counting was incredibly early on in our history. Here is a copy of the part of the introduction to The Universal History of Numbers: From Prehistory to the Invention of the Computer.

A riveting history of counting and calculating from the time of the cave dwellers to the late twentieth century, The Universal History of Numbers is the first complete account of the invention and evolution of numbers the world over. As different cultures around the globe struggled with problems of harvests, constructing buildings, educating their citizens, and exploring the wonders of science, each civilization created its own unique and wonderful mathematical system. 

Dubbed the “Indiana Jones of numbers,” Georges Ifrah traveled all over the world for ten years to uncover the little-known details of this amazing story. From India to China, and from Egypt to Chile, Ifrah talked to mathematicians, historians, archaeologists, and philosophers. He deciphered ancient writing on crumbling walls; scrutinized stones, tools, cylinders, and cones; and examined carved bones, elaborately knotted counting strings, and X-rays of the contents of never-opened ancient clay accounting balls. Conveying all the excitement and joy of the process of discovery, Ifrah writes in a delightful storytelling style, recounting a plethora of intriguing and amusing anecdotes along the way.

Now to that article on The Conversation.

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From thousands to millions to billions to trillions to quadrillions and beyond: Do numbers ever end?

The number zero was a relatively recent and crucial addition − it allows numbers to extend in both directions forever. pixel_dreams/iStock via Getty Images Plus

Manil Suri, University of Maryland, Baltimore County

Curious Kids is a series for children of all ages. If you have a question you’d like an expert to answer, send it to curiouskidsus@theconversation.com.

Why don’t numbers end? – Reyhane, age 7, Tehran, Iran

Here’s a game: Ask a friend to give you any number and you’ll return one that’s bigger. Just add “1” to whatever number they come up with and you’re sure to win.

The reason is that numbers go on forever. There is no highest number. But why? As a professor of mathematics, I can help you find an answer.

First, you need to understand what numbers are and where they come from. You learned about numbers because they enabled you to count. Early humans had similar needs – whether to count animals killed in a hunt or keep track of how many days had passed. That’s why they invented numbers.

But back then, numbers were quite limited and had a very simple form. Often, the “numbers” were just notches on a bone, going up to a couple hundred at most.

How numbers evolved throughout the centuries.

When numbers got bigger

As time went on, people’s needs grew. Herds of livestock had to be counted, goods and services traded, and measurements made for buildings and navigation. This led to the invention of larger numbers and better ways of representing them.

About 5,000 years ago, the Egyptians began using symbols for various numbers, with a final symbol for one million. Since they didn’t usually encounter bigger quantities, they also used this same final symbol to depict “many.”

The Greeks, starting with Pythagoras, were the first to study numbers for their own sake, rather than viewing them as just counting tools. As someone who’s written a book on the importance of numbers, I can’t emphasize enough how crucial this step was for humanity.

By 500 BCE, Pythagoras and his disciples had not only realized that the counting numbers – 1, 2, 3 and so on – were endless, but also that they could be used to explain cool stuff like the sounds made when you pluck a taut string.

Zero is a critical number

But there was a problem. Although the Greeks could mentally think of very large numbers, they had difficulty writing them down. This was because they did not know about the number 0.

Think of how important zero is in expressing big numbers. You can start with 1, then add more and more zeroes at the end to quickly get numbers like a million – 1,000,000, or 1 followed by six zeros – or a billion, with nine zeros, or a trillion, 12 zeros.

It was only around 1200 CE that zero, invented centuries earlier in India, came to Europe. This led to the way we write numbers today.

This brief history makes clear that numbers were developed over thousands of years. And though the Egyptians didn’t have much use for a million, we certainly do. Economists will tell you that government expenditures are commonly measured in millions of dollars.

Also, science has taken us to a point where we need even larger numbers. For instance, there are about 100 billion stars in our galaxy – or 100,000,000,000 – and the number of atoms in our universe may be as high as 1 followed by 82 zeros.

Don’t worry if you find it hard to picture such big numbers. It’s fine to just think of them as “many,” much like the Egyptians treated numbers over a million. These examples point to one reason why numbers must continue endlessly. If we had a maximum, some new use or discovery would surely make us exceed it.

The symbols of math include +, -, x and =.

Exceptions to the rule

But under certain circumstances, sometimes numbers do have a maximum because people design them that way for a practical purpose.

A good example is a clock – or clock arithmetic, where we use only the numbers 1 through 12. There is no 13 o’clock, because after 12 o’clock we just go back to 1 o’clock again. If you played the “bigger number” game with a friend in clock arithmetic, you’d lose if they chose the number 12.

Since numbers are a human invention, how do we construct them so they continue without end? Mathematicians started looking at this question starting in the early 1900s. What they came up with was based on two assumptions: that 0 is the starting number, and when you add 1 to any number you always get a new number.

These assumptions immediately give us the list of counting numbers: 0 + 1 = 1, 1 + 1 = 2, 2 + 1 = 3, and so on, a progression that continues without end.

You might wonder why these two rules are assumptions. The reason for the first one is that we don’t really know how to define the number 0. For example: Is “0” the same as “nothing,” and if so, what exactly is meant by “nothing”?

The second might seem even more strange. After all, we can easily show that adding 1 to 2 gives us the new number 3, just like adding 1 to 2002 gives us the new number 2003.

But notice that we’re saying this has to hold for any number. We can’t very well verify this for every single case, since there are going to be an endless number of cases. As humans who can perform only a limited number of steps, we have to be careful anytime we make claims about an endless process. And mathematicians, in particular, refuse to take anything for granted.

Here, then, is the answer to why numbers don’t end: It’s because of the way in which we define them.

Now, the negative numbers

How do the negative numbers -1, -2, -3 and more fit into all this? Historically, people were very suspicious about such numbers, since it’s hard to picture a “minus one” apple or orange. As late as 1796, math textbooks warned against using negatives.

The negatives were created to address a calculation issue. The positive numbers are fine when you’re adding them together. But when you get to subtraction, they can’t handle differences like 1 minus 2, or 2 minus 4. If you want to be able to subtract numbers at will, you need negative numbers too.

A simple way to create negatives is to imagine all the numbers – 0, 1, 2, 3 and the rest – drawn equally spaced on a straight line. Now imagine a mirror placed at 0. Then define -1 to be the reflection of +1 on the line, -2 to be the reflection of +2, and so on. You’ll end up with all the negative numbers this way.

As a bonus, you’ll also know that since there are just as many negatives as there are positives, the negative numbers must also go on without end!

Hello, curious kids! Do you have a question you’d like an expert to answer? Ask an adult to send your question to CuriousKidsUS@theconversation.com. Please tell us your name, age and the city where you live.

And since curiosity has no age limit – adults, let us know what you’re wondering, too. We won’t be able to answer every question, but we will do our best.

Manil Suri, Professor of Mathematics and Statistics, University of Maryland, Baltimore County

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

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This article was written for those a great deal younger than I am. But, to be honest, it is a fascinating account of something so utterly basic to humans and human cognition.

Enjoy!

Picture Parade Four Hundred and Twenty-Seven

And it has to be the 2024 Eclipse.

(With thanks to Unsplash.)

April 8th, 2024

Photo by Jeni Holland on Unsplash

Photo by Luis Olmos on Unsplash

Photo by Nikhil Mitra on Unsplash

Photo by Stephen Walker on Unsplash

Photo by Nikhil Mitra on Unsplash

These are just a few of the photographs available on Unsplash. These and the others are just wonderful.