Movie Review: Chevalier

As the movie ‘Chevalier’ begins we are attending a musical performance in late 18th century France. A small orchestra, by today’s standards, is on stage while front and center a young man is playing a solo violin while also conducting. As the concerto ends the young man introduces himself as Wolfgang Amadeus Mozart and asks if anyone in the audience has a request, something that never happens at a concert today.

The composer Mozart actually lived with the Chevalier de Saint-Georges for a summer while he visited Paris. I expect the two musicians played together quite often. (Credit: Classic FM)

A voice from the back asks if he could accompany Mozart. When the famous composer agrees a young black man, dressed as a French Nobleman steps on stage. Mozart is rather surprised, “Is this a jest’, “Who put you up to this?” he asks. Willing to go along with what he thinks is a joke Mozart being to play a cadenza, the black man quickly follows suit and the two violinists are soon deep in a musical duel. After a few minutes Mozart realizes that his opponent is a little bit better than he is, Mozart was really a pianist after all, so he turns to one of the orchestra members and asks, “Who the f%*k is that?”

A contemporary portrait of Joseph Bologne, the Chevalier de Saint-Georges, the subject of the new movie ‘Chevalier’. (Credit: LA Opera)

So we are introduced to Joseph Bologne, the Chevalier de Saint-Georges, wonderfully played by actor Kelvin Harrison jr. Once regarded as the most accomplished man in all of Europe in the movie we learn that Joseph is the son of a wealthy plantation owner in the French colony Guadeloupe named Georges Bologne and one of his black slave girls named Nanon, played by actress Ronke Adekoluejo. At the age of seven Georges returns to France to enroll his half-black bastard son in a musical academy, the boy is exceptionally good with the violin. Before leaving Georges gives his son one last piece of advice, “Be exceptional, they can’t stop you if you’re exceptional!” Joseph never sees his father again.

Poster for the film ‘Chevalier’. (Credit: IMDB)

Joseph does become exceptional. In addition to his musical ability Joseph becomes the most celebrated swordsman in France, the film shows his famous bout against fencing master Alexandre Picard. This ability with the sword earns him the title Chevalier de Saint-Georges from Queen Marie Antoinette, actress Lucy Boynton. Joseph’s main ambition is to become the Director of the Paris Opera and his chief romantic desire is the Marquise Marie-Josephine de Montalembert, a married woman, played by actress Samara Weaving.

The french Queen Marie Antoinette, plays a bigger role in the movie ‘Chevalier’ than she did in the real history of Joseph Bologne. Once again Hollywood feels it has to introduce historic figures everyone knows whether they belong in the story or not. (Credit: Commonsensemedia)

Both goals come to naught because of course Joseph is a black man and, as his mother puts it, “Just a tourist in their world.” In response to his rejection by French nobility Joseph joins with the revolutionary elements in Paris and helps to bring down the ancient regime.

Joseph’s affair with a married white Marquise is the central theme of ‘Chevalier’ even though historically it was only a insulting rumour. (Credit: Rotten Tomatoes)

The story of the Chevalier de Saint-Georges is an important one, one that needs to be told. His music is only now being rediscovered; I recently bought two CDs of his concertos and symphonies. Joseph was also a statesman and soldier, he served his country, he was a French citizen, both as a Chevalier and after the revolution he helped form the first all-black regiment in the French army. Nevertheless he was black and we all know how even today systematic racism conspires to keep blacks, however exceptional, in their places. The ‘Chevalier’ is an attempt to reestablish the reputation of a man who really was exceptional.

The 2016 film ‘Hidden Figures’ covered many of the same themes as ‘Chevalier’. Stories of talented people who are deliberately ignored because they don’t fit our picture of what a talented person should look like are stories that need to be told. (Credit: 20th Century Studios)

The music in ‘Chevalier’, as performed by the London Contemporary Orchestra is excellent, as are the costumes. Also the movie was filmed in the city of Prague, the same location as the movie ‘Amadeus’. All of which make ‘Chevalier’ enjoyable as well as important.

Although best known today as a musician, Joseph Bologne first achieved fame as a swordsman. (Credit: IMDB)

Unfortunately, as all too often happens in Hollywood, ‘Chevalier’ tends to prefer tired clichés over historical accuracy. In fact Joseph was originally enrolled in a fencing academy not a musical one. The romance with the Marquise Marie-Josephine is only a salacious rumour and had nothing to do with Joseph’s losing his bid for the Paris Opera. Also the friendship between Joseph and the French Queen is greatly overblown.

Cliches in Hollywood have become so numerous that people have even taken to publishing lists of them. (Credit: MovieCliches.com)

Perhaps more importantly is the relationship between Joseph and his father. Georges Bologne did not just abandon his son at school but actually asked his brother Joseph to look in on the boy from time to time. Then, just two years later Georges returned to France with Joseph’s mother Nanon. The three lived together in Paris for nine years before Georges returned to Guadeloupe to attend to his possessions there. Georges did apparently care for both his son and his mistress, although at that time the relationship must have been extremely complicated. In a better world Joseph and his parents may have been just a normal happy family.

For most of our nation’s history interracial marriage was a crime in many states. It wasn’t until 1967 that the Supreme Court finally struck down all laws banning interracial marriage. (Credit: Freedom to Marry)

I’d like to add another criticism, after the movie’s first scene Mozart disappears from the film and several people I know who saw the movie came away thinking that Mozart hated Joseph. Nothing could be farther from the truth, Mozart greatly admired the Chevalier and if fact Joseph conducted the world premiers of about a half a dozen Mozart symphonies, and the French premiers of many more. Mozart and Joseph had another thing in common as well, they were both Masons.

Like Mozart, Ben Franklin, George Washington and over a dozen other US Presidents, the Chevalier de Saint-Georges was a member of the Masons. (Credit: Grand Lodge of Ohio)

The glossing over of such facts is a great shame because the story of ‘Chevalier’ is too important a lesson for us today to allow it to be obscured by Hollywood clichés. So I still highly recommend that you go see ‘Chevalier’ so that you can be introduced to someone who is really worth knowing. The world needs more people like Joseph Bologne regardless of their colour, sex, nationality or whatever characteristic we use in order to hate each other.

Mathematicians have discovered a single geometric shape that tiles but when doing so does not generate a repeating pattern. I wonder what kind of art M. C. Escher could have created with such a figure.

We’re all familiar with the way that certain geometric figures, the square being the simplest, can be fitted together so there are no gaps or overlaps, the pieces all fit together perfectly. This geometric property is known as tiling because throughout history we humans have tiled floors and walls both for construction and to produce works of art.

A Simple but still interesting Tile. Hundreds of such patterns can be easily generated by squares, rectangles, triangles etc. (Credit: Freepik)

As I said there are some geometric figures that can be tiled like squares, rectangles, triangles, and hexagons. At the same time there are geometric shapes that will not produce a perfectly fitted tile, like stars, five or six sided, and octagons. There are also tiled patters that can be formed using two different geometric figures like a diamond and a parallelogram (see figure below). In mathematical terms such figures or combinations of figures are said to ‘admit’ tiling.

A couple of examples of geometric shapes that do not admit tiling. (Credit: Math and Multimedia)
A tiling pattern formed from two geometric figures can quickly become quite complex. (Credit: Pinterest)

You may have noticed that all of the figures I mentioned above are straight lined shapes rather than curved figures like a circle or a teardrop. While it is true that it is easier to find straight lined shapes that tile there are many known curved shapes that tile as well.

Here’s a simple but still very interesting tile pattern made from a single curved figure. (Credit: VectorStock)

Mathematicians have explored the properties of tiled patterns ever since the days of the ancient Greeks, if not even earlier. One of the most important features of the tiling of geometric figures is that they almost always repeat themselves over and over again in identical patterns. For some of the more elaborate geometric shapes, and especially for combinations of two or more figures the repeating section may be quite large, nevertheless the greater majority of tiled figures repeat themselves over and over again.

Despite it’s complexity the repeating pattern of this tile is easily apparent. (Credit: repper.app)

Those few combinations that do not repeat themselves have been given the special name of Penrose tiles after a small class of which was discovered back in the 1970s. Since then mathematicians have searched in vain for an elusive ‘Einstein’ tile, a single geometric figure that would tile perfectly but without creating a repeating pattern. (By the way the name Einstein does not refer to physicist Albert Einstein but rather to the meaning of the German word einstein, ‘one stone’.

The recently discovered ‘einstein’ tile. Despite being a single geometric figure that admits tiling it nevertheless generates no repeating pattern. (Credit:Science News)

Now a group of mathematicians from a quartet of Universities, Yorkshire, Cambridge, Waterloo and Arkansas, have found that elusive one stone, a thirteen sided irregular figure that they have christened ‘the hat’. As can be seen in the figure ‘the hat’ obviously does not develop a simple repeating pattern. In order to officially declare their result to be an einstein however the researchers had to prove that there would never be a repeating pattern by using what is known as a geometric incommensurability argument.

Many artists have made self-portraits but this one by M. C. Escher is just the best in my opinion. (Credit: National Gallery of Art)

The mathematicians who discovered ‘the hat’ expect that the most likely use of their figure will be in the arts and I’m certain it won’t take long before some artist takes up the challenge. Which brought to my mind what artistic creations the celebrated graphic artist Maurits Cornelis Escher, better known as M. C. Escher, might have done with ‘the hat’. Escher became famous both for turning tiled geometric figures into living animals, but also by then using those ‘living tiles’ in a larger work of art that contained less abstract elements as well.

Escher would often start by designing a tiling pattern that consisted of living creatures, in this case little reptiles. (Credit: Instructables)
Then use that pattern as a part of a larger, non-tiled work that are just breath taking in their imagination. (Credit: Wikipedia)

M.C. Escher lived from 1898 to 1972 in the Netherlands producing woodcuts, lithographs and mezzotints rather than paintings or sculptures like most of his contemporaries. Most of Escher’s works were greatly inspired by mathematical ideas, including artistic explorations of infinity, reflection and even hyperbolic geometry. During much of his life Escher was mostly ignored by the arts community, even today many artists regard him more as an uninspired workman rather than a true artist. In scientific circles however, Escher’s ideas and inventiveness slowly gained him a large following, one that continues to grow to this day.

Escher often used the ability of 2 dimensional drawings to show physical phenomenon that are impossible in the real world. Follow the water in this image! (Credit: NHPR)
Escher worked during the period of time when Relativity and Quantum Mechanics were revolutionizing out views of reality. No wonder that his works are loved by Physicists and Mathematicians. (Credit: Swann Auction Galleries)

Escher produced literally dozens of ‘living tiles’ using birds, fishes and even human beings as the tiled shape. Arguably the most famous of his tiled efforts is ‘Reptiles’, see figure above, which contains a page with a tiled pattern of lizards but at one end live lizards are coming out of the page, walking around a bit before sinking back into the flat reptile pattern.

Swans turning into fish is one of Escher’s simpler examples of tiling of one animal into another. (Credit: Museum of Fine Arts Houston)

Throughout his work Escher was fascinated by repeated patterns of one, two or even three geometric figures, many of which he would turn into living creatures. I’m certain that Escher would have been thrilled by the challenge of working with ‘the hat’, a figure that tiles but never repeats.

Space News for April 2023: Analyzing the results from NASA’s DART mission and how the discovery of a new asteroid may mean that we have to use those results sooner than we thought!

You may recall back last September when NASA’s DART spacecraft slammed into an asteroid as a first test of a planetary defense system, see my post of 8 October 2022. The DART mission, which stands for Double Asteroid Redirection Test, was designed to see if it was possible to alter the trajectory of an asteroid that was on a collision course with Earth as a way of preventing that impact.

The Dart spacecraft was intentionally send to crash into the small asteroid Dimorphos, which orbits around the larger asteroid Didymos. By carefully measuring the orbital period of Dimorphos astronomers can calculate the change in the asteroid’s velocity that the collision caused. (Credit: DART – NASA)

The target for the DART spacecraft was the asteroid Dimorphos, a 160m wide space rock that orbits around a larger, 750m asteroid named Didymos. By slamming into Dimorphos at 6km per second it was hoped that the 600kg DART spacecraft would change the time it takes the smaller asteroid to orbit around the bigger one. In astronomy it’s just easier to measure the time it takes something to happen rather than positions or distances.

Long before we could measure the distance to the Moon astronomers knew how long it took the Moon to orbit the Earth simply by keeping track of the Moon’s Phases. In astronomy it’s just easier to measure time than distance. (Credit: MoonConnection.com)

Dimorphos’ orbital period around Didymos before the collision with DART had been measured at approximately 11 hours and 55 minutes. After the collision astronomers back here on Earth took their time to accurately measure the new period. Once the new orbital period had been determined the laws of orbital dynamics could be used to calculate how much the asteroid’s velocity had been changed.

Once astronomers have measured the orbital period P, they can then use orbital mechanics, this is Kepler’s third law, to calculate other quantities like the average distance r between the two bodies. (Credit: burro.astr.cwru.edu)

It wouldn’t have to be by much either for the test to be successful because if you can change an asteroid’s trajectory by only one meter per second a year before it hits the Earth then that asteroid would miss our planet by more than 25,000 km. That’s why NASA’s plan for protecting Earth is to locate any potentially dangerous asteroids and if any are headed our way to gently alter their trajectory years before they get here. That’s considered to be a safer and less costly way to protect the Earth than Hollywood’s usual technique of blowing them up with nuclear weapons.

In the movie ‘Meteor’ the US and USSR send a bunch of H-bombs to blow up an asteroid that’s headed for Earth. NASA hopes to develop a bit more gentle technique. (Credit: Amazon.com)

So the DART spacecraft slammed into Dimorphos and the collision was so brilliant that several telescopes back here on Earth were able to photograph it. Not only was the impact itself impressive but the force of the collision ejected a large amount of material from the surface of Dimorphos generating a tail behind the asteroid similar in appearance to a comet’s. Since then astronomers have been observing Dimorphos in order to learn just how successful the DART mission was.

Image of the actual DART collision. The big asteroid Didymos is lower left while Dimorphos is upper right and obviously erupting in some fashion. (Credit: New York Times)

Now the results are in and it is clear that DART did better than anyone had expected. In a series of five papers in the journal Nature astronomers and aerospace engineers presented a detailed account how the DART collision changed the Didymos-Dimorphos system. NASA had hoped that the collision would reduce Dimorphos’ orbital period by seven minutes, from 11 hours 55 minutes down to 11 hours 48 minutes but instead the orbital period dropped by 33 minutes, more than four times what was predicted. The scientists are convinced that it was the large amount of ejected material knocked off the asteroid that generated the larger than anticipated result. Based on ground observations it is estimated that as much as 0.5% of Dimorphos’ entire mass may have been exploded into space, and remember for every action there is an equal an opposite reaction.

The trail of ejected material from Dimorphos. The amount of material ejected by the DART collision is estimated to be as much as half a percent of Dimorphos’ total mass. (Credit: El Pais in English)

So the DART mission clearly showed that the idea of protecting Earth from an asteroid impact by nudging it slightly years before the asteroid reaches us is a good one. More than that however DART gave scientists and engineers a good baseline for determining exactly how to go about giving an asteroid that nudge.

Possible future mission to visit an Asteroid, or perhaps push one out of our way? (Credit: Forbes)

And we may have to make use of that knowledge before long because NASA has recently announced that the space agency has discovered a small asteroid that might, emphasis on might, collide with Earth on Saint Valentine’s day in the year 2046, 23 years from now. The new asteroid has been given the name 2023 DW and is about 47m in size so it’s considerably smaller that Dimorphos. Still if an asteroid that size were to strike a heavily populated area it could cause a lot of damage. Right now the Jet Propulsion Labouratory (JPL) estimates that 2023 DW has about a 1 in 560 chance of striking our planet while the European Space Agency puts the odds at 1 in 625. You can be certain that astronomers are keeping a close eye on 2023 DW and so over the next year or so those estimates are likely to change.  If asteroid 2023 DW continues to be a threat who knows, it may very well become the first target of a real attempt to use the lessons from DART to protect our planet from an asteroid impact.

New Studies indicate that Sea Level Rise due to Climate Change over the next 100 years could be far worse than previously expected. Meanwhile the big Oil companies continue to make record profits.

Over the last several years various aspects of Climate Change have been getting a bit more attention in the news than previously. Both the continuing drought in the Western North America, East Africa and Europe as well as the abnormally severe storms, hurricanes, tornadoes along with massive floods throughout the world have been making so many headlines that global warming can no longer be completely ignored.

So far this year has been unprecedented in the number and destruction of Tornadoes here in the US. How anyone can continue to doubt the reality of Climate Change is beyond my understanding. (Credit: American Museum of Natural History)

Now all of that news coverage is a good thing but all of those stories about changing weather patterns have obscured another piece of the climate change problem, sea level rise. Sea level rise may not get the headlines, basically because we haven’t begun to see the worst effects of it yet, but millimeter by millimeter it just keeps it just keeps on building, a measured 20cm rise worldwide over the last 100 years. Already some of its effects have been noticed in low laying parts of the world like the Mississippi delta or islands like the Seychelles. At the same time the entire US gulf and Atlantic coasts have been subjected to an ever growing number of ‘King Tides’, periodic flooding of land areas even when there has been no rain for days. In the city of Miami seawater has been known to come bursting out of sewers while the Sun is shining brightly.

While Hurricanes, Tornadoes and Droughts get the most press coverage, King Tides caused by the slow but constant rise in sea level are becoming a regular nuisance in many coastal cities. (Credit: Science / How Stuff Works)

Now two news studies, each looking at the long term consequences of sea level rise from opposite directions have concluded that the problem will become much worse, much quicker than expected. The first study, published in the journal Nature Communications by an international team of scientists details the results of a series of model based computer simulations.

The ice in Greenland is melting faster than ever and now there is evidence that the ice is melting from the bottom up indicating that the whole ice cap could become unstable! (Credit: CNN)

Those results predict that not only will the melting of the ice caps on both Greenland and Antarctica continue, but that the melting will accelerate, causing a much greater rise in sea level by the end of the century. In fact the models show that, if global temperature rise should exceed 1.8ºC above pre-industrial levels the melting of the ice caps would reach irreversible, catastrophic amounts with a sea level rise by the year 2100 estimated at one meter above today’s level.

It was all smiles as the nations of the world agree to keep global temperature rise below 1.5 degrees back in 2015. It seems however that nobody realized that meant that had to do something other than just smile! (Credit: State of the Planet – Columbia University)

Now remember, ever since the Paris climate accords of 2015 both scientists and politicians have been pushing for a limit of 1.5ºC rise in global temperature, and pretty much failing to do anything substantial to actually stop the world from going past that goal. Indeed, the latest estimates have the global temperature rise going above 1.5ºC sometime in the next five years. And once we’re past 1.5ºC can 1.8ºC be far behind. So the amount of water being dumped into the oceans by melting ice caps is going to increase rapidly, threatening the low laying areas of every nation on Earth.

Worst case scenario for sea level rise here in the US. Even without this extreme case many of our largest cities will become unlivable due to constant floodings and storm damage. (Credit: Forbes)

The second paper concerns those low laying areas and concludes that we have been greatly underestimating the amount of global land area that will be lost due to sea level rise. The study, published in the American Geophysical Union’s journal Earth’s Future, utilizes data from NASA’s ICESat-2 LiDAR satellite, which was launched back in 2018, to determine the elevation above sea level of land areas throughout the globe.

Well they finally did it, NASA put a LASER in space. Don’t worry this one is intended to measure land elevations not blast cities to rubble. (Credit: ICESat-2 -NASA)

Previous measurements of land elevations were carried out by airplanes using radar, but those measurements were inaccurate, primarily because radar cannot penetrate beneath vegetation to the true ground surface. The ICESat-2 satellite uses the much more precise Light Detection and Ranging (LiDAR) that is better able to determine the true elevation of land areas.

Elevation maps showing the hight above sea level of land areas are a common tool in geography but if sea level continues to rise we are going to need to redo all of them! (Credit: SERC)

What the researchers found was the elevation of much of the world’s low laying land areas was being overestimated. Not by much, only a meter or two for the most part, but when coupled with a one meter rise in sea level it means that just about twice as much of the world is going to sink beneath the ocean by the year 2100 than was previously thought.

Salt Marshes are among the richest and most important ecological environments in the world. A 1 meter rise in sea level would result in most of the world’s salt marshes simply disappearing. (Credit: The Pew Charitable Trusts)

That means that millions more people will see their homes swept away by floods. Whole nations like Bangladesh may simply cease to exist while seacoasts around the world will be inundated. Rich cities like Miami and Boston may be able to afford to build dikes to preserve them, but what about poorer cities like Mumbai and Bangkok? What about the numerous small coastal towns in New Jersey, North Carolina, Florida and Texas?

One of the most densely populated counties in the world Bangladesh is also probably the most threatened by sea level rise. (Credit: UCAR Center for Science Education)

So it may not be long before you start hearing more and more stories on the news about widespread flooding across the globe. It’ll happen slowly, millimeter by millimeter as the sea rises, but it’s going to happen.

By building a large interconnected system of dykes the people of the Netherlands succeeded in building a country that is mostly below sea level. However that task took centuries to complete and Holland isn’t that big a country. Imagine the cost of doing that for the whole world! (Credit: Quora)

Now, if you find the latest estimates on sea level rise and the flooding of the world’s coastlines associated with it to be a bit depressing then here’s some news that I’m certain will cheer you up. The major oil companies have recently all announced that they made record profits during last year 2022. So even as the planet burns up you can still have a safe investment for your 401K that will be paying dividends in the post-apocalyptic hellscape to come.

Is this what the future holds for New York and other coastal cities? (Credit: Rolling Stone)

For the record, Exxon-Mobile posted a profit in 2022 of $55.7 Billion, that’s profit, not sales, while Shell announced $39.9 Billion in profit. The other oil giants saw similar levels of profit, Chevron $35.5 Billion, BP $27.7 while France’s Total Energies announced $36.6 Billion. All of these numbers were records for each company and came while the world was recovering from the Covid-19 pandemic and tittering on the brink of a recession.

Even as people all over the world complained about the sharp rise in the price of gas the oil companies were quite happy. (Credit: Bloomberg.com)

Of course the oil giants insist that they did nothing wrong, it was the pandemic’s fault really. You see during all of the Covid lockdowns the demand for oil and natural gas dropped so they all had to cut way back on production. Then last year, as life throughout the world began to return to normal the demand for oil and natural gas shot up. Add to that Russia’s invasion of Ukraine, Russia is the world’s third largest oil producer and second largest producer of natural gas, and the price for a barrel of oil went through the roof. There was nothing the oil companies could do; the law of supply and demand literally forced them to make ungodly amounts of money.

How much is Russian oil paying for Russia’s war in Ukraine? How many wars so far this millennia have been fueled by oil? (Credit: Fair Observer)

All of which is just more evidence of how hard it is going to be to get the human race to stop polluting the world with fossil fuels. There are simply too many people making too much money from oil and natural gas, I won’t even mention coal, for them to be simply outlawed. The question therefore becomes how much of the world’s land mass has to be flooded, how severe do storms have to become, how many people have to suffer in droughts or wildfires before we finally do something? And will it be too late by then?

Movie Review: Everything, Everywhere all at Once

Yes, I know. I really should have reviewed this movie months ago, or at least before it won the academy award for best picture. To be honest I just didn’t get around to seeing ‘Everything, Everywhere all at Once’ until after it won the Oscar. I just hope you can forgive my tardiness and that you’ll still find my review to be of some interest.

Even the best of us can get a bit behind sometimes. (Credit: Redbubble)

First off the film isn’t quite ‘Everything, Everywhere all at Once’ but for a motion picture it certainly does pack an awful lot of action, in a great many different location, into two and a half hours. The idea behind ‘Everything, Everywhere all at Once’ is that an opening in the Multiverse allows the characters to experience something of the lives of their alternate selves in other realities. I recently reviewed a novel by Blake Crouch entitled ‘Dark Matter’, see my post of 18th February 2023, that deals with the same idea and like the novel ‘Everything, Everywhere all at Once’ is a breathtaking thrill ride full of wild ideas that will make you think.

The novel ‘Dark Matter’ by Blake Crouch deals with the same ideas as ‘Everything, Everywhere all at Once’ using the Multiverse to question how our lives could have been different if we’d made different choices. (Credit: Goodreads)

Evelyn Wang, played by actress Michelle Yeoh, leads a rather boring existence. She and her husband Waymond, played by Ke Huy Quan, own, manage and live above a laundromat. The couple’s only child is a daughter Joy, played by Stephanie Hsu who has recently begun a lesbian relationship and who feels she simply cannot communicate anymore with her parents.

It is of course impossible to fully display the Multiverse in a motion picture, but ‘Everything, Everywhere all at Once’ does a pretty good job of giving a small glimpse of it! (Credit: IMDb)

The Wang’s also live with Evelyn’s father Gong Gong, played by actor James Hong, who thinks his daughter ruined her life when she married Waymond. Oh, and by the way Waymond is planning to divorce Evelyn. To add to the troubles the Wang’s are being audited by the IRS, specifically by IRS agent Deirdre Beabeirdra, played by Jamie Lee Curtis.

In addition to winning the Best Picture Academy Award ‘Everything, Everywhere all at Once’ received three best actor awards. From left to right Michelle Yeoh won for best actress, Key Huy Quan won for best supporting actor while Jamie Lee Curtis won for best supporting actress. (Credit: CBR)

It’s midway through the Wang’s audit that the Multiverse breaks in, as Waymond suddenly becomes an agent fighting the ultimate evil, the daughter Joy, in another Universe that only Evelyn can defeat. When Evelyn asks how she could possibly defeat anyone the other Waymond tells her that she is actually the least accomplished of all the Evelyns in the Multiverse and that allows her to assume the abilities of all the others. At this point don’t ask, just go with the flow as ‘Everything, Everywhere all at Once’ becomes part Science Fiction, part Comedy and Part Action Movie.

Actress Michelle Yeoh has spent much of her career playing in such Kung Fu pictures as ‘Crouching Tiger, Hidden Dragon’. Her abilities as a martial artist were put to good use in ‘Everything, Everywhere all at Once’. (Credit: DGA)

Throughout ‘Everything, Everywhere all at Once’ there are numerous references to other well known movies like ‘The Matrix’, ‘2001: A Space Odyssey’ and ‘The Terminator’. The big reference however is that in another Universe instead of marrying Waymond Evelyn became a star in Kung-Fu movies, which of course is exactly what actress Michelle Yeoh actually has been throughout her career.

Movies making references to other classic movies has become a thing nowadays. ‘Everything, Everywhere all at Once ‘even reminds us of the origins of man section of ‘2001: A Space Odyssey’. (Credit: Peatix)

The action and dialogue in ‘Everything, Everywhere all at Once’ is frantic and I think this is one movie I’m going to have to watch several times to really figure out everything that’s going on. To add to the confusion the Wang’s go back and forth between speaking English and Mandarin, sometimes in the same sentence. There are subtitles for the Mandarin but with all of the rapid fire dialogue you have to concentrate a bit to keep up. If at any time it all becomes a bit bewildering that’s O’k, this is the Multiverse and anyone who doesn’t find the Multiverse to be bewildering just isn’t paying attention.

The Multiverse will do that to a person. (Credit: Robotics and Automation Review)

In the end everything works out for the best, Evelyn reconciles with her husband, daughter and father, in fact the final scenes are a bit maudlin. Nevertheless ‘Everything, Everywhere all at Once’ is an intellectual roller coaster ride of ideas and action that is just a lot of fun to watch.

Space News for March 2023: The International Space Station is becoming a busy place as three manned missions make news and NASA is planning the development and testing of a Nuclear Rocket Engine.

When the International Space Station (ISS) was first assembled in Earth orbit more than twenty years ago now the astronauts that made up its crew traveled there using either the American Space Shuttle of the Russian Soyuz manned spacecraft. After the Shuttle was retired there was a time when the only way to get to the ISS was aboard a Russian Soyuz. During that period NASA was busy working on its Commercial Crew Program where two private corporations, Space X and Boeing, would develop their own man capable spacecraft and NASA would pay them to take astronauts to and from the ISS.

The International Space Station (ISS) under construction with the space shuttle Endeavor docked on the left. (Credit: NASA)

One of these corporations, Space X has succeeded admirably. The first ever manned launch of a private space capsule took place on the 30th of May in 2020 and took two astronauts to the ISS for a three month stay; see my post of 3 June 2020. Since then Space X has carried out another six manned space missions. Five of those missions were a part of NASA’s commercial crew program but one was the first ever completely private space mission, see my post of 2 October 2021.

A night time launch is always spectacular! The launch of the Crew 6 mission on its way to the ISS. (Credit: Spectrum News 13)

Now Space X has launched its eighth manned mission, the sixth commercial crew mission to the ISS for a regular crew transfer. Liftoff took place on the 2nd of March with arrival at the ISS the next day. The astronauts aboard the Crew 6 mission are Stephen Bowen and Warren Hoburg of NASA along with Sultan Al Neyadi of Dubai and a Russian cosmonaut Andrey Fedyaer.

Crew 6 Dragon capsule docking at the ISS. (Credit: Space Launch Now)

As with all of the ISS crew missions the four astronauts who took off aboard a Space X Dragon capsule are scheduled for a six month stay on the space station. Just a week after the crew 6 astronauts arrived at the ISS the crew five team, who have served aboard the ISS since October of 2022, returned to Earth aboard their Dragon capsule, splashing down in the waters off of Florida. The engineers at Space X have performed their tasks so well that another Space X mission to the ISS has now become rather routine.

Crew 5’s splashdown was also at night. (Credit: NASA)

Not so for Boeing and its Starliner man capable capsule. After years of delays the capsule finally launched on its first, unmanned test flight back on the 20th of December in 2019 only to have so many software problems that the capsule could not complete its mission to rendezvous with the ISS. After more than a year of corrections a second, successful unmanned test flight was conducted in May of 2022, see my post of 11 June 2022.

On its second unmanned test flight the Starliner capsule did succeed in reaching the ISS and docked with the station. (Credit: Mashable)

Now Boeing is preparing for the final, manned test flight of Starliner. Currently scheduled for mid to late April the final test flight will carry astronauts Butch Wilmore and Suni Williams to the ISS for a six day stay. Total mission length will be eight days. If successful NASA could finally have two completely different space launch systems for taking its astronauts to and from the ISS.

Scheduled for a launch in April, the Crew of the first manned launch of the Starliner capsule are (L-R) astronauts Sunita Williams and Barry Eugene Wilmore. (Credit: Wikipedia)

Meanwhile the Russians have been having a series of problems with their venerated Soyuz space capsule. First flown back in 1967 the initial flight of the Soyuz capsule was a disaster as the cabin lost pressure during re-entry killing Cosmonaut Vladimir Komarov. After those early problems however the Soyuz spacecraft has become a reliable, if not exactly comfortable means for getting into Earth orbit.

Gas leaking out of the Soyuz capsule can be seen in the photograph. The current Russian crew at the ISS was supposed to use this craft to return to Earth. Obviously an alternate means of getting home is necessary. (Credit: Fox 9)

Until now, because the Soyuz capsule that took the current Russian crew to the ISS has sprung an air leak and is now incapable of returning those cosmonauts to Earth. Not only that but a recent Soyuz derived Progress cargo ship also developed a pressure leak soon after arriving at the ISS.

Based on their Soyuz manned capsule the Russians developed an unmanned cargo ship Progress to supply the ISS. The most recent Progress send to the ISS developed a leak similar to the one in the Soyuz capsule. Is there a connection? (Credit: Wikipedia)

This puts Russia in something of a quandary, how do they get their astronauts back down to Earth without a usable spacecraft, Russia’s space agency Roscosmos has decided that the leaking Soyuz module could be used in an emergency but would rather not use it at all if possible.

The Soyuz Rescue capsule arriving at the ISS. The current schedule is for this capsule to return the current Russian crew to Earth in September. Assuming this capsule doesn’t spring a leak! (Credit: NASA Spaceflight)

In the end what the Russians did was to launch another Soyuz spacecraft to the ISS to bring the cosmonauts home. That unmanned capsule was launched on the 23rd of February and reached the ISS on the 25th. The Russian crew, with their American colleague, are now scheduled to return to Earth in September.

However, should this third Soyuz type craft also experience problems the only viable backup plan would be for the Russians to pay Space X to send one of their Dragon capsules to the ISS as a rescue vessel. With all of the tension between Russia and the US happening now such a last resort would be a very costly embarrassment to the Russians, so I think Roscosmos will leave their cosmonauts stranded in space for a while if it becomes necessary.

Being stranded in Space is no fun as Mark Watney in ‘The Martian’ can tell you! (Credit: Outside Magazine)

One last little item before I leave. Back in the early days of the space age NASA carried out a very serious program to study the possibility of using nuclear rockets as a propulsion system for spacecraft. The program was called Project NERVA and did in fact develop several nuclear rocket engines that were successfully static tested on the ground. However, because of the danger posed by both the radioactive exhaust as well as the possibility of an explosion during launch spreading radioactive material over a wide area the program was canceled in 1972.

Basic design of a Nuclear Thermal Rocket. (Credit: NASA)

The idea behind a nuclear rocket engine is simple. Instead of using chemical combustion to heat the rocket’s exhaust the heat of a nuclear fission pile can be used to heat almost anything, even something as simple as water. Calculations, backed up by the tests carried out in project NERVA, have shown that such a nuclear rocket can provide 3 or more times as much ‘push’ as even the best chemical rockets. Which is why NASA was so interested in the concept.

Actual test of a Nuclear Thermal Rocket back in the early 1970s. (Credit: AutoEvolution)

Now NASA is teaming with the Defense Advanced Research Projects Agency (DARPA) to revive the nuclear rocket engine. DARPA carries out research for the Department of Defense and as such is a natural partner for the development of a nuclear rocket. The initial schedule is for a test flight of a nuclear rocket is 2027.

Yea, I know, it’s the Pentagon but they have supported some really important technology over the years! (Credit: Internet of Business)

There will be some changes to NASA’s original idea for project NERVA however. For one thing we have a lot fewer explosions happening during the launch of a rocket so the danger of nuclear material being spread over half of Florida is much less. At the same time the nuclear rocket itself will not be used to lift a payload into orbit. Rather the nuclear rocket will only be used for deep space exploration outside of Earth orbit. That way no radioactive exhaust will be dumped into the atmosphere.

Proposed design for a Mars spacecraft. Two Nuclear Thermal Rockets are to the left while an Orion space capsule is docked with the crew habitat module to the right. (Credit: IEEE Spectrum)

The plan is of course to use a nuclear rocket to power the first manned missions to Mars, the space agency’s long desired goal. So hopefully, in about ten years or so, a spaceship assembled in orbit will ignite its nuclear rocket engine and begin a long journey to the red planet, mankind’s first trip to another planet. 

Book Review: ‘The Accidental Ecosystem’ by Peter S. Alagona

I have in several previous posts mentioned the number of different species of wildlife that are now living in my neighborhood in northeast Philadelphia, one of the most highly urbanized areas of our planet. The intrusion of wild animals into cities and other highly populated areas is slowly becoming more and more of a newsworthy story as well as the subject of a number of episodes of nature and science programs.

Are you watching ‘Nature’ on PBS, it’s better than 99% of the crap on TV nowadays! (Credit: Dailymotion)

This trend is certainly going to continue and that is what makes the new book ‘The Accidental Ecosystem’ by Professor of Environmental Studies at the University of California at Santa Barbara Peter S. Alagona so important. ‘The accidental Ecosystem’ is more than a description of urbanized areas as an ecosystem, more than a bestiary of those species that are adapting to life in our cities and suburbs. In fact Professor Alagona only describes a handful of illustrative species in detail.

Cover art for ‘The Accidental Ecosystem’ by Peter S. Alagona. (Credit: Big Bend Radio and TV Magazine)

What ‘The Accidental Ecosystem’ is about is the process of how our cities have become a home for wild species, what direction that process is likely to take in the near future, and how we humans can manage the situation to the benefit of all species. In other words ‘The Accidental Ecosystem’ is as much about urban planning as it is about ecology.

Meet the new neighbors! Most people still feel that wild animals don’t belong in cities and suburbs but with us taking over more and more of the planet all the time, where else do they have to go? (Credit: Forbes)
Professor Peter S. Alagona in the kind of setting I’m certain he prefers! (Credit: University of California Press)

Professor Alagona begins with the beginning of cities themselves and makes the largely ignored point that animals have always lived in cities alongside human beings. I’m not just talking about dogs and cats, and rats either. For millennia horses, cattle, swine and sheep along with chickens, ducks and geese were kept in urban areas both for food and in some cases as a labour force.

Notice the pig and Oxen a bit to the left of middle. For most of human history animals lived in cities with us but they were domesticated animals that we brought in. What’s happening today is a different story entirely. (Credit: Scandinavian Archaeology)

It was really only with the beginning of the industrial age that the idea that cities were meant for people and our pets was really put into practice both for hygienic reasons while at the same time putting limited urban land to more valuable use. Only when horses and oxen were no longer needed for their muscle power, and the revolution in transportation allowed food animals to be kept outside urban areas until after they were slaughtered did the idea that cities were for people and our pets became practical. This concept of a city as something of a fortress against the natural world reached its pinnacle from about the 1930s through the 1960s.

Starting in the 1930s people began to dream of ‘The City of the Future’. There was no room for wild animals here, just humans and our pets! (Credit: Pinterest)

By the 1970s the situation had begun to change, the growth of the suburbs, with single homes on bigger lots, along with a recognition of the value of open, wooded spaces even in cities provided living space for a few animals at first. Add to that the resources that an urban area could provide, not only our food waste but also the gardens many people grow along with the seed we put out to literally ‘feed the birds’. The wildlife of the cities may have begun with rats, squirrels, pigeons and songbirds but before long they were joined by other adaptable species like raccoons and opossums. As more and more rural areas were developed for human habitation even large animals like deer and bears became citizens of places intended for people only.

We are willing to accept a few species of smaller animals like Squirrels living alongside us. (Credit: Battery Park City Authority)

‘The Accidental Ecosystem’ charts the development of our current situation while at the same time making suggestions as to how the problems of urban wildlife, and there have been many problems, can be addressed. As you might guess Professor Alagona dismisses the notion that the wild creatures living alongside humans could, or even should simply be exterminated. Such a war against nature he argues would be never ending. So long as cities provide space and resources that wild animals can exploit some will come into the cities to do just that. Also, with the growing environmental consciousness of many people such a policy would be politically controversial, to say the least.

But this is just going to far. Or is it just a omen of the future? (Credit: Alaska Fish and Game)

So ‘The Accidental Ecosystem’ spends a large part of its pages discussing those policies and programs that could help make the urban environment friendlier to both humans and its newer residents. Many of the policies discussed will themselves be contentious, as many people will balk at the idea of spending money to make the lives of ‘pests’ better. Nevertheless as Professor Alagona correctly points out, it is a growing problem that needs to be solved.

Thomas Holmes original plan for the city of Philadelphia. Maybe it’s time for us to start taking the needs of other species into account when we decide to change world to suit us! (Credit: Philadelphia Parks and Recreation)

I for one however hope that we do find ways to live with our wild neighbors. Often on summer nights you’ll find me outside of my house watching some of the skunks, raccoons, opossums, groundhogs, bats, and now even a fox, that live in my neighborhood. That’s why I recommend ‘The Accidental Ecosystem’ by Peter S. Alagona, for my sake as well as theirs.

With all the stars in the Universe there should be at least a few Civilizations out there whose radio emissions we could have detected by now but we haven’t. Why? Is there a Great Filter that eliminates all but a very few alien Intelligences and are we approaching it?

For as long as people have looked up at the sky and wondered, we’ve thought about whether there is anybody living up there? A thousand years ago or more we thought that the gods lived in the heavens but today we look, and listen with our radio telescopes to see if we can find any sign of alien intelligences out there.

Is anybody there? With hundreds of billions of stars, anyone of which could have an Earth type planet, how can there not be other intelligences in the Milky Way? So where are they? (Credit: Unsplash)

After all there are simply so many stars in just our own galaxy the Milk Way, the latest estimate by astronomers is about 200 Billion! So even if only a very, very, VERY few stars have planets with civilizations on them there should be at least a hand full of other intelligent, technological species out there.

In the movies Alien Intelligences are always coming to Earth. Not so in reality. (Credit: Walmart)

In 1961 the astronomer Frank Drake even thought up an equation to ‘estimate’ the number of civilizations ‘N’ there should be in the Milky Way. The equation starts with the number of stars in the galaxy, 200 billion and then multiplies that by a number of different factors:

Astronomer Frank Drake and his equation. (Credit: Wikipedia)

P=The fraction of stars that have planets. Recent observations by the Kepler space telescope and other planet finding searches put this at least at 10% and perhaps as high as 50%.

During its life the Kepler Space Telescope showed us that there are at least thousands, more likely millions or billions of planets orbiting stars in the Milky Way. (Credit: NASA)

G=The fraction of planets that are in the so-called ‘Goldilocks Zone’ where liquid water can exist. Here on Earth wherever there is liquid water there is life so biologists think that liquid water is essential to life. At present we have very little data about the value of G but based on our own solar system it’s around 20%.

The ‘Goldilocks Zone’ is where a planet is just the right distance from its star for liquid water to exist. Not to close and hot, not too far and cold, just right! (Credit: NASA)

L=The fraction of planets with liquid water where some form of primitive life does arise. Biologists have no idea what the value of this could be; some say it is probably as small as a few percent while others argue it could be as large as 90%.

At what point does complex chemistry become life? We’re still trying to figure that one out. So how hard is it for simple life to form on other planets? (Credit: CK-12 Foundation)

I=The fraction of planets with some form of life where an intelligent, technically advanced species eventually evolves. The value of this fraction, your guess is as good as anybody’s.

What would a city built by alien intelligence look like? (Credit: Newsweek)

So the Drake equation looks like this:

N=200Billion * P * G * L * I

And again, even if F, G, P, and I are all quite small when multiplied by 200 billion there should still be a dozen or so intelligent species in the Milky Way. Which again begs the question, why haven’t we found any yet?

Oh, my mistake, I forgot one last factor. You see when Drake thought up his equation he also considered the average lifetime of an intelligent, technological species, the factor ‘T’. After all, even if we don’t like to think about it species do go extinct. The trilobites all went extinct, the dinosaurs went extinct, so did the wholly mammoths. If an intelligent species lived on another planet 100 million years ago but has since gone extinct then we certainly wouldn’t be receiving radio signals from them today!

In the movie ‘Forbidden Planet’ the alien Krell destroyed themselves a million years ago, but their machines still existed. (Credit: YouTube)

Recently a diverse group of thinkers, including space engineers, political scientists and just some smart people have taken a good look at that last factor and wondered, what if T is really small? What if being an intelligent, technological species is actually a short road to extinction? Remember out of the 4.5 billion years that Earth has existed our civilization has only been here for 10,000 years, a mere flicker of time. We have no real evidence that intelligent species survive any longer than non-intelligent ones do. Maybe they actually don’t survive very long at all.

Every species has its own particular niche, its own way of making a living in its environment. We have yet to see if Intelligence is actually a good long term niche or not! (Credit: Eco-Intelligence)

Evolutionary biologists talk about ‘survival strategies’, having a bony, internal skeleton would be one example. That certainly is a good survival strategy, there are thousands of vertebrate species on Earth and they’ve been around for at least 450 million years. What about flying as a survival strategy, again there are tens of thousands of flying insects, birds, bats and there used to be flying reptiles as well.

So is intelligence a good survival strategy? You would think so at first sight. After all we now dominate this planet as no other single species ever has. We are so dominate that we’re even killing off thousands of other species, destroying whole ecosystems while we covert the planet to suit our pleasures of today and pay no attention to what the world is going to be like tomorrow.

Just a few of the thousands of species we humans have driven to extinction. And will we be the cause of our own extinction? (Credit: Encyclopedia Britannica)

By now I guess you see where I’m going with this. Do intelligent species actually destroy themselves by developing technologies they haven’t got the wisdom to properly use? The researchers, led by Jet Propulsion Labouratory engineer Jonathan H. Jiang, have christened this idea ‘The Great Filter’ that filters out, eliminates those species that allow their own technology to destroy them.  

Notice for a seminar by Jonathan Jiang at JPL. Sounds like fun to me! (Credit: YouTube)

This idea isn’t completely new; back in the 1960s a lot of people were afraid that a nuclear war would destroy humanity. In the original Star Trek series Captain Kirk several times described the threat of nuclear war in the 20th century as “Our weapons outgrew our wisdom”. That line would be an early version of the Great Filter concept.

Will this be humanity’s final, most enduring symbol? (Credit: Fair Observer)

And the researchers do include a nuclear war as one of the possible ways that an intelligent species could destroy itself. The paper, which has been published on Cornell University’s Arxiv pre-print site, see link below, https://arxiv.org/ftp/arxiv/papers/2210/2210.10582.pdf, goes further however, including other man-made threats to ourselves like climate change and pollutants such as plastics and cancer causing forever chemicals.

Or will we simply poison ourselves. (Credit: Greenpeace)

Now the researchers also included one possible extinction cause that I’m going to have to argue against. In science fiction the idea of an Artificial Intelligence (AI) that supplants humanity is familiar from such movie series as The Terminator and The Matrix, and with the continuing development of cybernetics it is a definite possibility. However any such scenario would only represent one intelligence being replaced by another, perhaps better adapted intelligence. Such an event, whether here on Earth or on another planet would not cause the extinction of intelligence on that planet. Therefore I don’t think that AI should be included in the Great Filter.

If artificial intelligence does supplant us does that actually count as the extinction of intelligence? (Credit: Quora)

With that one exception I find the paper’s analysis to be depressingly logical. The threats we are causing by our own selfishness and stupidity are real and growing. That’s why the Doomsday Clock maintained by the Bulletin of Atomic Scientists has recently been reset to a mere 100 seconds before midnight. There simply isn’t much time left for us to acquire the good judgment we need to solve all the problems we have created for ourselves. The wisdom we need to safely pass through the Great Filter.

So the big question is, does humanity have the wisdom it needs to survive? (Credit: Quora)

That dilemma could, indeed probably is true for all intelligent species anywhere in the cosmos. As we sit warm and comfortable here on Earth it’s easy to ignore the fact that the Universe is actually a very hostile place for life. And maybe it is even more hostile to intelligence.

The European Space Agency (ESA) is preparing its Jupiter Icy Moons Explorer (JUICE) space probe for an April launch. By the time it arrives at the Sun’s largest planet it will have been joined by NASA’s Europa Clipper and together they will survey the mini-solar system that are the moons of Jupiter.

At a factory in France belonging to the aerospace corporation Airbus a 6,200 kg spacecraft has completed its assembly and testing and is now being packed up for shipment to its launch facility. The space probe is the European Space Agency’s (ESA) Jupiter Icy Moons Explorer or JUICE, which is scheduled to liftoff aboard an Ariane 5 rocket from the ESA’s Kourou launch complex in French Guiana this April.

The Jupiter Icy Moons Explorer (JUICE) spacecraft and the worlds it will explore. (Credit: NASA)

The JUICE spaceprobe is Europe’s first robotic mission to the outer solar system. Indeed it will be the first non-NASA spacecraft to go beyond the orbit of Mars. Because of the immense distances and energy needed to reach the Sun’s outer worlds JUICE’s journey to Jupiter will take eight years and require several gravity boosting flybys of both Venus and the Earth.

The Pioneer 10 space probe was the first man made object to reach the outer Solar System, and it then continued on the leave the Solar System. So far only the United States has succeeded in reaching as far as Jupiter. (Credit: NASA)

The mission of JUICE is to make multiple flybys of three of Jupiter’s big moons, Europa, Ganymede and Callisto, all of which are known to be covered by enormous sheets of ice beneath which it is thought there could be oceans of liquid water. Water that could be the habitat of living creatures.

Of Jupiter’s four big ‘Galilean’ moons the three on the right are covered with ice and are the targets of the JUICE space probe. Io, on the left, is the exact opposite being very hot and covered with volcanoes! (Credit: BIRA-IASB)

To carry out its mission JUICE carries 10 instruments including a Laser altimeter for making a 3D maps of the surfaces of the moons and an ice penetrating radar to discover if there really are oceans beneath those icy surfaces. And as the space probe travels back and forth between Jupiter’s moons it will use magnetometers and radiation detectors to study the complex magnet fields generated by the largest planet in the solar system and how that field effects, and is effected by its moons. Power for all these instruments is provided by a huge 100 square meter solar panel. Such a large array is needed because Jupiter is so far from the Sun that the sunlight out there only 1/25th as powerful as it is here on Earth.

The JUICE space probe undergoing testing at Airbus. (Credit: The Guardian)

After a period of three and a half years studying the three moons JUICE will enter into orbit around Ganymede, the largest moon in the solar system, for further study. Eventually the spacecraft’s orbit will decay and JUICE will crash onto the surface of Ganymede.

Bigger than the Planet Mercury Ganymede is the largest moon in the Solar System. Beneath that icy coating astronomers think there is a liquid ocean containing more water than there is here on Earth. And could there be life as well? (Credit: Earth Sky)

As it carries out it’s mission of discovery JUICE will not be alone. Scheduled for launch in October of 2024 NASA’s Europa Clipper spacecraft will actually reach its target of the moon Europa a month or two before JUICE arrives at Jupiter. Since the Europa Clipper is still undergoing its final testing and isn’t scheduled for launch until late next year I’ll hold off on a lengthily description of that space probe.

NASA’s Europa Clipper space probe will leave Earth after the ESA’s JUICE but will arrive at its destination of Europa first! (Credit: NASA)

What I will do however is take a few minutes to discuss why both the ESA and NASA are so interested in Jupiter’s icy moons and it all has to do with the search for liquid water elsewhere in the solar system. You see, here on Earth wherever you can find liquid water there you will find life and perhaps the simplest definition for life is complex chemicals dissolved in packets of water. The space agencies therefore feel that their best chance for finding life elsewhere in our solar system is to find liquid water.

As seen in this image from Hubble, Europa is completely covered in ice but scientists are certain that there is an ocean beneath that ice. In the past few decades NASA has followed a plan of ‘Follow the Water’ in its search for life off the Earth. (Credit: Hubble Space Telescope)

Now Jupiter’s icy moons certainly have water in the form of ice, we can see that in pictures taken as far back as the Voyager probes. At that distance from the Sun however the question is, where’s the heat coming from that’s needed to create the theorized oceans beneath the ice.

The same forces that cause the Volcanoes on Io should be generating hot ‘thermal vents’ on Europa. Given both water and energy the possibility of life is very good! (Credit: MarineBio.net)

The answer lies in the tidal forces generated by massive Jupiter and it’s four big moons. As each moon orbits around Jupiter it’s pulled and squeezed not only by Jupiter’s strong gravity but by the three other moons as well. That pulling and squeezing causes friction deep inside each moon and fiction generates heat, lots of it.

Here on Earth the Tides cause the oceans to rise and fall twice every day. This actually does generate a tiny amount of heat. The Tidal forces, and so the heat, generated by enormous Jupiter and its four big moons are much larger. (Credit: Lumen Learning)

We know that is true from our observations of Jupiter’s innermost moon Io, which is the most volcanically active body in the solar system. The heat generated by tidal forces inside Io must be tremendous and so we estimate that the heat inside Europa and maybe Ganymede should be enough to have melted some of their ice, producing oceans that could easily contain more water than all the oceans here on Earth. And once again, where there’s water, there’s a good chance for life.

The moon closest to Jupiter, Io feels the full force of Jupiter’s tides making it the most volcanic body in the Solar System. (Credit: NASA)

We now know that Mars once had oceans, and if JUICE and Europa Clipper do find oceans on Jupiter’s moons how long will it be before we do finally find life out there?

Book Review: ‘Dark Matter’ by Blake Crouch

From time to time we all stop for a moment to consider the ‘what ifs’ in our lives. You know what I mean; we wonder how our lives would be different if we’d made different choices, or if we could go back and change something that had happened in our past. Author Blake Crouch goes a little further, he wonders how the Universe would react if people could actually make those kinds of changes and writes Science Fiction novels where he examines the consequences of such technologies.

Many Science Fiction novels are actually meant to provide a mirror on human society. In his ‘The War of the Worlds’ H. G. Wells was actually commenting on Europe’s violent colonizing of the rest of the world. (Credit: Wikipedia)

Back in my post of 2 September 2022 I reviewed Crouch’s novel ‘Recursion’ where Time Travel allows people to go back into their pasts and change the biggest moment of their lives. In ‘Dark Matter’ he uses the idea of the Multiverse to allow his characters to go to other universes where they have made different choices in their lives.

In ‘Recursion’ Blake Crouch uses Time Travel to comment on how people dream about changing the mistakes they’d made in their lives. (Credit: Amazon)

Jason Dessen is a professor of physics at a small mid-western university, a happily married man with a wife and son. It could have been different, he could have accomplished big things but he got his girlfriend pregnant and when the baby was born the child had a lot of medical problems so Jason gave up his chance at scientific immortality to be a father and husband. At the same time his wife Daniela gives up her career as an artist to be a wife and mother.

Author Blake Crouch and the cover art for his novel ‘Dark Matter’. (Credit: Aralingua)

Then one night as he is walking home Jason is kidnapped by a man in a mask and taken to an abandoned power station outside Chicago. There his assailant forces him to exchange all their clothes, takes his wedding ring and then injects him with drugs that knock him out. When Jason wakes up he is in another Universe, a world where he became a top scientist, in charge of a billion dollar project to open up the doors to the Multiverse, a world where his entire life is taken up by his work with no personal life at all.

Is there an infinite number of different Universes? The idea actually makes sense according to several of the latest models of how our Universe works. (Credit: Universe Today)

In his attempts to get back to his Universe, where his assailant has now taken his place, Jason visits many different Chicagos, different Universes, each of which differs to some degree, great or small from the Chicago that is Jason’s. In this part of ‘Dark Matter’ Crouch gives a wonderful glimpse into just what the reality of a Multiverse, the infinity of Universes each just a tiny bit different from all the others, could mean. Then, when somehow Jason does find his way back to his own Universe, things really get weird, but since I don’t want to spoil things I’ll stop there.

The windy city of Chicago is the setting for ‘Dark Matter’ or to more accurate several versions of Chicago are the settings! (Credit: Choose Chicago)

As he did in ‘Recursion’ Blake Crouch takes us on a wild ride that builds to a crescendo, I didn’t see the ending coming at all. In ‘Recursion’ Crouch just asked us to accept just one thing, his way of time travel. Once we allow that everything else in the novel follows quite logically. Same thing in ‘Dark Matter’ Crouch only asks that we agree to Jason’s method of opening up the Multiverse, then everything else makes sense no matter how weird it gets.

In his novels Blake Crouch really only asks us to accept one, very strange idea. The rest of the story works pretty logically from there. That makes ‘Suspension of Disbelief’ much easier. (Credit: Go Teen Writer)

Except at one point, and it’s a big ‘hey wait a minute’. Jason spends more than a third of the novel trying to get back to his Universe amongst an infinity of Universes. His assailant however had no difficulty taking Jason to his Universe, dumping him there and then getting back to Jason’s Universe to take his place!

Aside from that ‘Dark Matter’ is a wild ride, both thought provoking and exciting, I absolutely look forward to reading more of Blake Crouch’s works, but I have a little worry. Both ‘Dark Matter’ and ‘Recursion’ use science fiction to examine the ‘What ifs’ in our lives. I’m hoping that Blake Crouch doesn’t get into a rut. I hope his next novel is an alien contact story or something similar.

We really do need to get on with our lives and not let the ‘what ifs’ destroy whatever chance for happiness we still have. (Credit: Icy Tales)

And if it is you’ll see it reviewed here at Science and Science Fiction.