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September 8, 2024
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2 minFREEHumanities Word CurioFree2 CQ
Word of the Day
: September 8, 2024\muh-MEN-toh\ noun
What It Means
Memento is a synonym of souvenir; it refers to something that is kept as ...
with Merriam-WebsterWord of the Day
: September 8, 2024\muh-MEN-toh\ noun
What It Means
Memento is a synonym of souvenir; it refers to something that is kept as ...
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FREEWorld History PP&T CurioFree1 CQ
It may not seem exciting, but we wouldn’t have much without it! Cement is used in the construction of… pretty much everything. It’s also been around for millennia. Yet as ubiquitous and essential for modern life as it is, cement remains mostly misunderstood. Many people have no idea what’s even in it. Well, get your dust mask ready to explore the history of cement through the ages.
First things first: cement and concrete are not the same thing. They may both be dusty, gray stuff that hardens when mixed with water, but concrete is actually a combination of several different materials, one of which is cement itself. To make concrete, cement and aggregates like gravel are mixed together with a variety of ingredients (depending on the application) to form a strong, porous mass. Cement itself has been produced since antiquity by the ancient Greeks and Romans, with their version consisting of lime and volcanic ash mixed together. They created lime by calcining limestone, a process of heating it in a low oxygen environment to remove impurities like carbon dioxide. When the lime and ash are mixed with water, they undergo a chemical reaction called hydration, combining the calcium in lime and the silica in ash to form calcium silicate hydrates. Romans in particular are renowned for their use of cement to build massive structures that have lasted thousands of years with little maintenance. They used cement as mortar to hold bricks together, and used it to make concrete. In fact, their word for concrete, “opus caementicium”, is where the modern word “cement” comes from. Their most famous innovation was using cement to build structures in or near water. Since cement—and by extension, concrete—cures instead of drying like mud or clay, they could use both materials to build the bases of bridges, dams, and aqueducts. And unlike wood, cement and concrete don’t get weaker with time or when exposed to water. In fact, water makes the materials more durable, because small cracks that let in water trigger a secondary curing process that helps maintain structural integrity.
Most cement used today is Portland cement, and its development started in the 1800s. In 1824, British bricklayer Joseph Aspdin created the first iteration of Portland cement by heating a mixture of lime and clay together until they calcined. Aspdin took the resulting product and ground it to a fine powder. When mixed with water, it became exceptionally strong, so he named it after the stones from the Isle of Portland in Dorset, U.K., which were known for their strength. Portland cement was then improved upon by his son, William Aspdin, who added tricalcium silicate. Then, in 1850, cement manufacturer Isaac Johnson created Portland cement as it is today. Johnson heated his ingredients at a higher temperature than Aspdin had, going up to 2732 degrees Fahrenheit, resulting in a product called clinker, a fusion of lime and the silicates. In addition to being strong, Portland cement also sets much more quickly than its predecessors, and remains the primary ingredient of concrete used in modern construction.
The modern world would certainly be different without cement—in more ways than one. While the material has allowed for the construction of everything from majestic skyscrapers to monumental hydroelectric dams, its production is also a major source of greenhouse emissions. Aside from the massive amount of fuel required to heat kilns for clinker and the transportation of the heavy material through fossil fuel-powered means, the very process of heating limestone releases carbon dioxide into the atmosphere. Still, cement has a lot of qualities that make it worthwhile. Concrete buildings are often very energy efficient, and since they can last so long, it means that less material might be used to maintain or rebuild structures. Also, scientists are currently working on cements that can absorb carbon dioxide from the atmosphere, further offsetting the emissions released during its production. So, when it comes to cement, what’s old is new and what’s gray is (hopefully) green.
[Image description: A portion of a building made from unpainted cement blocks.] Credit & copyright: Tobit Nazar Nieto Hernandez, PexelsIt may not seem exciting, but we wouldn’t have much without it! Cement is used in the construction of… pretty much everything. It’s also been around for millennia. Yet as ubiquitous and essential for modern life as it is, cement remains mostly misunderstood. Many people have no idea what’s even in it. Well, get your dust mask ready to explore the history of cement through the ages.
First things first: cement and concrete are not the same thing. They may both be dusty, gray stuff that hardens when mixed with water, but concrete is actually a combination of several different materials, one of which is cement itself. To make concrete, cement and aggregates like gravel are mixed together with a variety of ingredients (depending on the application) to form a strong, porous mass. Cement itself has been produced since antiquity by the ancient Greeks and Romans, with their version consisting of lime and volcanic ash mixed together. They created lime by calcining limestone, a process of heating it in a low oxygen environment to remove impurities like carbon dioxide. When the lime and ash are mixed with water, they undergo a chemical reaction called hydration, combining the calcium in lime and the silica in ash to form calcium silicate hydrates. Romans in particular are renowned for their use of cement to build massive structures that have lasted thousands of years with little maintenance. They used cement as mortar to hold bricks together, and used it to make concrete. In fact, their word for concrete, “opus caementicium”, is where the modern word “cement” comes from. Their most famous innovation was using cement to build structures in or near water. Since cement—and by extension, concrete—cures instead of drying like mud or clay, they could use both materials to build the bases of bridges, dams, and aqueducts. And unlike wood, cement and concrete don’t get weaker with time or when exposed to water. In fact, water makes the materials more durable, because small cracks that let in water trigger a secondary curing process that helps maintain structural integrity.
Most cement used today is Portland cement, and its development started in the 1800s. In 1824, British bricklayer Joseph Aspdin created the first iteration of Portland cement by heating a mixture of lime and clay together until they calcined. Aspdin took the resulting product and ground it to a fine powder. When mixed with water, it became exceptionally strong, so he named it after the stones from the Isle of Portland in Dorset, U.K., which were known for their strength. Portland cement was then improved upon by his son, William Aspdin, who added tricalcium silicate. Then, in 1850, cement manufacturer Isaac Johnson created Portland cement as it is today. Johnson heated his ingredients at a higher temperature than Aspdin had, going up to 2732 degrees Fahrenheit, resulting in a product called clinker, a fusion of lime and the silicates. In addition to being strong, Portland cement also sets much more quickly than its predecessors, and remains the primary ingredient of concrete used in modern construction.
The modern world would certainly be different without cement—in more ways than one. While the material has allowed for the construction of everything from majestic skyscrapers to monumental hydroelectric dams, its production is also a major source of greenhouse emissions. Aside from the massive amount of fuel required to heat kilns for clinker and the transportation of the heavy material through fossil fuel-powered means, the very process of heating limestone releases carbon dioxide into the atmosphere. Still, cement has a lot of qualities that make it worthwhile. Concrete buildings are often very energy efficient, and since they can last so long, it means that less material might be used to maintain or rebuild structures. Also, scientists are currently working on cements that can absorb carbon dioxide from the atmosphere, further offsetting the emissions released during its production. So, when it comes to cement, what’s old is new and what’s gray is (hopefully) green.
[Image description: A portion of a building made from unpainted cement blocks.] Credit & copyright: Tobit Nazar Nieto Hernandez, Pexels -
9 minFREEWork Business CurioFree5 CQ
Federal Reserve independence has come into the spotlight recently, with former President Donald Trump indicating he thinks the president should have some inf...
Federal Reserve independence has come into the spotlight recently, with former President Donald Trump indicating he thinks the president should have some inf...
September 7, 2024
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2 minFREEHumanities Word CurioFree2 CQ
Word of the Day
: September 7, 2024\VIL-uh-fye\ verb
What It Means
To vilify someone or something is to say or write very harsh and critical ...
with Merriam-WebsterWord of the Day
: September 7, 2024\VIL-uh-fye\ verb
What It Means
To vilify someone or something is to say or write very harsh and critical ...
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8 minFREEWork Business CurioFree5 CQ
Former President Donald Trump says he’ll establish a government efficiency commission if re-elected in November, and it would be headed by Elon Musk. Musk’s ...
Former President Donald Trump says he’ll establish a government efficiency commission if re-elected in November, and it would be headed by Elon Musk. Musk’s ...
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FREESports Sporty CurioFree1 CQ
Nothing can slow this woman down. Jodie Grinham of Britain just won a bronze in archery, making history as the first ever Paralympian to medal while openly pregnant. Grinham, who also brought home a silver medal in 2016 in mixed team compound and a gold this year in the same event, recently won her first individual medal in individual compound. This latest Olympic medal is particularly noteworthy since Grinham earned it while 28 weeks pregnant. Being seven months along, Grinham’s training has involved learning to work around her prominent baby bump by adjusting her equipment and modifying her stance so that she can hold and fire her bow. Concerned about the possibility of going into labor prematurely, as she did during the birth of her now two-year-old son, Grinham went in for check ups prior to competition and took time to check that there was a hospital near where she would be competing. On an athlete’s busy schedule, that should definitely count as a labor of love.
[Image description: Two archery targets, one with an arrow through the yellow bullseye.] Credit & copyright: Pexels, Mikhail Nilov
Nothing can slow this woman down. Jodie Grinham of Britain just won a bronze in archery, making history as the first ever Paralympian to medal while openly pregnant. Grinham, who also brought home a silver medal in 2016 in mixed team compound and a gold this year in the same event, recently won her first individual medal in individual compound. This latest Olympic medal is particularly noteworthy since Grinham earned it while 28 weeks pregnant. Being seven months along, Grinham’s training has involved learning to work around her prominent baby bump by adjusting her equipment and modifying her stance so that she can hold and fire her bow. Concerned about the possibility of going into labor prematurely, as she did during the birth of her now two-year-old son, Grinham went in for check ups prior to competition and took time to check that there was a hospital near where she would be competing. On an athlete’s busy schedule, that should definitely count as a labor of love.
[Image description: Two archery targets, one with an arrow through the yellow bullseye.] Credit & copyright: Pexels, Mikhail Nilov
September 6, 2024
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8 minFREEWork Business CurioFree5 CQ
From the BBC World Service: It’s the world’s largest convenience chain, with 85,000 stores — and Seven & i Holdings said the $40 billion takeover bid for 7-E...
From the BBC World Service: It’s the world’s largest convenience chain, with 85,000 stores — and Seven & i Holdings said the $40 billion takeover bid for 7-E...
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2 minFREEHumanities Word CurioFree2 CQ
Word of the Day
: September 6, 2024\rih-PLEET\ adjective
What It Means
Replete is an adjective used to describe things as "fully or abundantl...
with Merriam-WebsterWord of the Day
: September 6, 2024\rih-PLEET\ adjective
What It Means
Replete is an adjective used to describe things as "fully or abundantl...
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FREEMind + Body Daily CurioFree1 CQ
It’s creamy, it’s spicy, it’s British, it’s Indian, it’s fusion…it’s delicious! While everyone agrees that chicken tikka masala is one of the best-loved foods in England today, its origin is much-debated. What’s not up for debate is the fact that this dish spawned an entire culinary movement, helping to popularize Indian cuisine throughout Britain.
Chicken tikka masala is a dish of boneless chicken chunks in a creamy, tomato-coriander sauce. The chicken used in the dish is chicken tikka, which is made by marinating chicken in a mixture of yogurt and garam masala, a ground spice blend that often includes cinnamon, cumin, cardamom, and peppercorns. Other spices, like turmeric and paprika, are added to the sauce, which is orange thanks to its mixture of red tomatoes and yellowish coriander. Chicken tikka masala can be extremely spicy or very mild, depending on which spices are added. In many restaurants, it can even be ordered to taste.
While chicken tikka masala undoubtedly has Indian origins (many food historians believe it evolved from butter chicken, a similar Indian dish) it wasn’t actually created in India, but in Europe. The question is where exactly in Europe. Some believe that, in the early 1970s, an unnamed chef in London created the dish, which quickly spread amongst the city’s many Indian restaurants until its original creator was unclear. The most popular origin story, though, involves British Pakistani chef Ali Ahmed Aslam and his restaurant in Glasgow, Scotland. Supposedly, Aslam used spices and condensed tomato soup to make a sauce for a customer’s chicken tikka after they’d complained that it was too dry. However, when Glasgow petitioned for the city to be named the dish’s official home, they were denied, since many different places in the U.K. claimed to have invented it.
Today, chicken tikka masala is considered an unofficial national dish of the U.K., even if no one can agree exactly where in the U.K. it came from. Many also consider it to be one of the first examples of fusion cuisine. In 2001, U.K. foreign secretary Robin Cook even said that the dish was proof of “multiculturalism as a positive force for our economy and society.” There’s no arguing with that.
[Image description: A white plate of chicken tikka masala, rice, and a triangular piece of naan on a yellow-and-white table. The dish’s sauce is a brownish-orange color.] Credit & copyright: Andy Li, Wikimedia Commons. This file is made available under the Creative Commons CC0 1.0 Universal Public Domain Dedication.It’s creamy, it’s spicy, it’s British, it’s Indian, it’s fusion…it’s delicious! While everyone agrees that chicken tikka masala is one of the best-loved foods in England today, its origin is much-debated. What’s not up for debate is the fact that this dish spawned an entire culinary movement, helping to popularize Indian cuisine throughout Britain.
Chicken tikka masala is a dish of boneless chicken chunks in a creamy, tomato-coriander sauce. The chicken used in the dish is chicken tikka, which is made by marinating chicken in a mixture of yogurt and garam masala, a ground spice blend that often includes cinnamon, cumin, cardamom, and peppercorns. Other spices, like turmeric and paprika, are added to the sauce, which is orange thanks to its mixture of red tomatoes and yellowish coriander. Chicken tikka masala can be extremely spicy or very mild, depending on which spices are added. In many restaurants, it can even be ordered to taste.
While chicken tikka masala undoubtedly has Indian origins (many food historians believe it evolved from butter chicken, a similar Indian dish) it wasn’t actually created in India, but in Europe. The question is where exactly in Europe. Some believe that, in the early 1970s, an unnamed chef in London created the dish, which quickly spread amongst the city’s many Indian restaurants until its original creator was unclear. The most popular origin story, though, involves British Pakistani chef Ali Ahmed Aslam and his restaurant in Glasgow, Scotland. Supposedly, Aslam used spices and condensed tomato soup to make a sauce for a customer’s chicken tikka after they’d complained that it was too dry. However, when Glasgow petitioned for the city to be named the dish’s official home, they were denied, since many different places in the U.K. claimed to have invented it.
Today, chicken tikka masala is considered an unofficial national dish of the U.K., even if no one can agree exactly where in the U.K. it came from. Many also consider it to be one of the first examples of fusion cuisine. In 2001, U.K. foreign secretary Robin Cook even said that the dish was proof of “multiculturalism as a positive force for our economy and society.” There’s no arguing with that.
[Image description: A white plate of chicken tikka masala, rice, and a triangular piece of naan on a yellow-and-white table. The dish’s sauce is a brownish-orange color.] Credit & copyright: Andy Li, Wikimedia Commons. This file is made available under the Creative Commons CC0 1.0 Universal Public Domain Dedication.
September 5, 2024
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8 minFREEWork Business CurioFree5 CQ
From the BBC World Service: China’s President Xi Jinping has announced almost $51 billion in new funding for the continent — in projects including infrastruc...
From the BBC World Service: China’s President Xi Jinping has announced almost $51 billion in new funding for the continent — in projects including infrastruc...
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FREEScience Nerdy CurioFree1 CQ
No need to pan for gold, let the planet shake it out for you. Despite being one of the world’s most sought-after metals, the details of how small gold particles form into large nuggets has long baffled scientists. Equally puzzling was why large nuggets and veins of gold are usually found clinging to quartz, one of Earth’s most common minerals. Now, scientists from Monash University in Australia have detailed a new theory: that earthquakes and quartz may work together to form large nuggets of gold. The idea, outlined in a recent issue of the journal Nature Geoscience, states that the vast pressure earthquakes exert on quartz activates a special property of the mineral called piezoelectricity. This occurs when some materials, including quartz, emit an electrical charge under mechanical stress. This charge makes it easier for gold nanoparticles in fluid beneath the Earth’s crust to gather on the surface of quartz, since it changes the arrangement of charged atoms inside the quartz, thereby allowing gold nanoparticles to “stick” to the mineral more easily. Researchers tested their theory in a lab by placing quartz in a fluid that contained gold nanoparticles. When they modeled the type of electrical field that quartz would produce during an earthquake, the quartz produced a charge that caused the gold nanoparticles to build up on its surface. It seems that, even while toppling buildings, earthquakes leave behind some precious surprises in the form of precious metal.
[Image description: Gold forming on a nugget of quartz.] Credit & copyright: Miguel Calvo, Wikimedia Commons. This file is made available under the Creative Commons CC0 1.0 Universal Public Domain Dedication.
No need to pan for gold, let the planet shake it out for you. Despite being one of the world’s most sought-after metals, the details of how small gold particles form into large nuggets has long baffled scientists. Equally puzzling was why large nuggets and veins of gold are usually found clinging to quartz, one of Earth’s most common minerals. Now, scientists from Monash University in Australia have detailed a new theory: that earthquakes and quartz may work together to form large nuggets of gold. The idea, outlined in a recent issue of the journal Nature Geoscience, states that the vast pressure earthquakes exert on quartz activates a special property of the mineral called piezoelectricity. This occurs when some materials, including quartz, emit an electrical charge under mechanical stress. This charge makes it easier for gold nanoparticles in fluid beneath the Earth’s crust to gather on the surface of quartz, since it changes the arrangement of charged atoms inside the quartz, thereby allowing gold nanoparticles to “stick” to the mineral more easily. Researchers tested their theory in a lab by placing quartz in a fluid that contained gold nanoparticles. When they modeled the type of electrical field that quartz would produce during an earthquake, the quartz produced a charge that caused the gold nanoparticles to build up on its surface. It seems that, even while toppling buildings, earthquakes leave behind some precious surprises in the form of precious metal.
[Image description: Gold forming on a nugget of quartz.] Credit & copyright: Miguel Calvo, Wikimedia Commons. This file is made available under the Creative Commons CC0 1.0 Universal Public Domain Dedication.
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FREEArt Appreciation Daily Curio #2938Free1 CQ
There’s no use crying over spilt milk… or broken artifacts. After a 4-year-old boy shattered a millennia-old jar at the Hecht Museum in Haifa, Israel, in late August, the museum invited the boy and his family back to see the relic restored. You might expect such a mistake, honest though it was, to lead to a museum ban or even a fine. But the Hecht Museum has good reasons for letting bygones be bygones. First of all, the child who broke the jar clearly did so by accident. According to the family, the boy thought there might be something inside the jar, so he tried to tilt it and look inside, causing it to fall on the floor. Immediately following the incident, the parents waited for museum workers to arrive, hoping to hear that the jar was a replica. To their dismay, it was a genuine, 3,500 year old relic. Made during the Bronze Age, the jar survived for millennia without any major damage, making it a rare specimen. However, instead of punishing the boy and his family for destroying the ancient artifact, the museum invited them back to learn about the restoration process. That’s because of the museum’s philosophy of sharing its contents with the world in an open and approachable manner, even if that brings some risks. As the general director of the Hecht Museum Inbal Rivlin said in a statement, “The museum is not a mausoleum but a living place, open to families [and] accessible.” They’re also hoping to use this incident as a way to educate the public on the restoration process, which involves meticulously reassembling the jar shard by shard. It also won’t change the museum’ policy on displaying some artifacts openly, without protective cases, which they believe adds a “special charm” to visitors’ experience. Of course, they are much less forgiving when it comes to intentional damage, and have worked with the police when such incidents arose. If you decide to visit, it’s probably best to keep your hands to yourself, just in case.
There’s no use crying over spilt milk… or broken artifacts. After a 4-year-old boy shattered a millennia-old jar at the Hecht Museum in Haifa, Israel, in late August, the museum invited the boy and his family back to see the relic restored. You might expect such a mistake, honest though it was, to lead to a museum ban or even a fine. But the Hecht Museum has good reasons for letting bygones be bygones. First of all, the child who broke the jar clearly did so by accident. According to the family, the boy thought there might be something inside the jar, so he tried to tilt it and look inside, causing it to fall on the floor. Immediately following the incident, the parents waited for museum workers to arrive, hoping to hear that the jar was a replica. To their dismay, it was a genuine, 3,500 year old relic. Made during the Bronze Age, the jar survived for millennia without any major damage, making it a rare specimen. However, instead of punishing the boy and his family for destroying the ancient artifact, the museum invited them back to learn about the restoration process. That’s because of the museum’s philosophy of sharing its contents with the world in an open and approachable manner, even if that brings some risks. As the general director of the Hecht Museum Inbal Rivlin said in a statement, “The museum is not a mausoleum but a living place, open to families [and] accessible.” They’re also hoping to use this incident as a way to educate the public on the restoration process, which involves meticulously reassembling the jar shard by shard. It also won’t change the museum’ policy on displaying some artifacts openly, without protective cases, which they believe adds a “special charm” to visitors’ experience. Of course, they are much less forgiving when it comes to intentional damage, and have worked with the police when such incidents arose. If you decide to visit, it’s probably best to keep your hands to yourself, just in case.
September 4, 2024
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7 minFREEWork Business CurioFree4 CQ
From the BBC World Service: Financial markets in Asia and the U.S. have tumbled with investor concerns that the U.S. economy could be headed toward recession...
From the BBC World Service: Financial markets in Asia and the U.S. have tumbled with investor concerns that the U.S. economy could be headed toward recession...
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FREEBiology Nerdy CurioFree1 CQ
This is no mere cat…it’s a meerkat! These weasel-like members of the mongoose family display some of the most unique behavior in the animal kingdom. Social and intelligent, especially for mammals of their size, meerkats hunt, work, and live together in large groups called mobs.
Meerkats are small mammals, standing just under 12 inches tall and weighing around two pounds. Yet, like their closest relatives, what they lack in size they make up for in scrappiness. With their ability to stand on two legs and run nimbly on all fours, meerkats can outmaneuver many predators. Those they can’t outrun must contend with meerkats’ long claws and sharp teeth. Like other mongooses, meerkats are resistant to some forms of venom. This trait comes in very handy since there are 30 species of venomous snakes in meerkats’ home country of Africa. However, snakes aren’t meerkats’ biggest predators. That distinction falls to birds of prey, like hawks and eagles, which can snatch meerkats from above before they can defend themselves. Large, terrestrial carnivores, like jackals and hyenas, are too big to fight off. To protect against these threats, meerkats have evolved a brilliant social system with built-in babysitters, lookouts, and secret escape routes.
Meerkat mobs include around 10 to 15 meerkats, and are made up of about three family groups, each with a breeding pair and their own young, called pups. Mobs dig elaborate systems of tunnels and underground dens, and spend most of their lives within a few hundred feet of these safe havens. Meerkat burrows can have 15 or more openings, allowing them to slip underground at many different points. While one or two meerkats watch the mob’s young while other adults stand lookout. If a predator is spotted, the guard will sound an alarm call, which sends the entire mob racing underground. During calmer times, adults will groom one another, sun themselves, and teach pups how to dig up prey, which includes insects like grubs, beetles, and even scorpions and snakes—it really does pay to be immune to venom.
[Image description: Two adult meerkats and five young meerkats standing at attention. One adult is looking to the right, the others are facing forward.] Credit & copyright: Amada44, Wikimedia Commons. The copyright holder of this work, has released it into the public domain. This applies worldwide.This is no mere cat…it’s a meerkat! These weasel-like members of the mongoose family display some of the most unique behavior in the animal kingdom. Social and intelligent, especially for mammals of their size, meerkats hunt, work, and live together in large groups called mobs.
Meerkats are small mammals, standing just under 12 inches tall and weighing around two pounds. Yet, like their closest relatives, what they lack in size they make up for in scrappiness. With their ability to stand on two legs and run nimbly on all fours, meerkats can outmaneuver many predators. Those they can’t outrun must contend with meerkats’ long claws and sharp teeth. Like other mongooses, meerkats are resistant to some forms of venom. This trait comes in very handy since there are 30 species of venomous snakes in meerkats’ home country of Africa. However, snakes aren’t meerkats’ biggest predators. That distinction falls to birds of prey, like hawks and eagles, which can snatch meerkats from above before they can defend themselves. Large, terrestrial carnivores, like jackals and hyenas, are too big to fight off. To protect against these threats, meerkats have evolved a brilliant social system with built-in babysitters, lookouts, and secret escape routes.
Meerkat mobs include around 10 to 15 meerkats, and are made up of about three family groups, each with a breeding pair and their own young, called pups. Mobs dig elaborate systems of tunnels and underground dens, and spend most of their lives within a few hundred feet of these safe havens. Meerkat burrows can have 15 or more openings, allowing them to slip underground at many different points. While one or two meerkats watch the mob’s young while other adults stand lookout. If a predator is spotted, the guard will sound an alarm call, which sends the entire mob racing underground. During calmer times, adults will groom one another, sun themselves, and teach pups how to dig up prey, which includes insects like grubs, beetles, and even scorpions and snakes—it really does pay to be immune to venom.
[Image description: Two adult meerkats and five young meerkats standing at attention. One adult is looking to the right, the others are facing forward.] Credit & copyright: Amada44, Wikimedia Commons. The copyright holder of this work, has released it into the public domain. This applies worldwide. -
FREEEngineering Daily Curio #2937Free1 CQ
They say that plenty of fiber is good for you…well, here’s a whole bunch! Researchers at Northumbria University in England and National Textile University in Pakistan have found a way to create textiles using waste materials from the banana industry. As a bonus, the process would produce energy at the same time. The method is set to roll out in Pakistan, which has large agricultural and textile industries. Pakistan also produces around 154,800 tons of bananas a year, and the fruits are one of the country’s largest agricultural exports. But banana production comes with a lot of waste. On average, every 2.5 acres of banana plantation produces around 220 tons of waste in the form of peels and the inedible “bodies” of each banana plant. Pakistan’s textile industry requires a lot of raw materials and energy, yet the country’s electricity isn’t always reliable in rural areas. To solve all these problems at once, Northumbria University and the National Textile University are teaming up with Eco Research Ltd in England, and Prime Eurotech in Pakistan. While the universities develop textiles from banana waste, whatever can’t be used for textiles will be used in the production of synthetic gas (syngas) and nitrogen fertilizers. That way, they’ll address the problem of waste while providing clean energy to the very communities that grow the bananas in the first place. As banana waste is converted into textile fibers, it could become a new source of income for these communities too, while reducing the amount of waste generated by the textile industry. In all, the process could make use of nearly 88 million tons of agricultural waste produced by the banana industry to produce over two billion cubic feet of syngas and 33 million tons of fertilizer. Cleaning up two industries at once—who knew bananas had such wide a-peel?
[Image description: Several bananas arranged on a white background. One is halfway unpeeled.] Credit & copyright: alleksana, PexelsThey say that plenty of fiber is good for you…well, here’s a whole bunch! Researchers at Northumbria University in England and National Textile University in Pakistan have found a way to create textiles using waste materials from the banana industry. As a bonus, the process would produce energy at the same time. The method is set to roll out in Pakistan, which has large agricultural and textile industries. Pakistan also produces around 154,800 tons of bananas a year, and the fruits are one of the country’s largest agricultural exports. But banana production comes with a lot of waste. On average, every 2.5 acres of banana plantation produces around 220 tons of waste in the form of peels and the inedible “bodies” of each banana plant. Pakistan’s textile industry requires a lot of raw materials and energy, yet the country’s electricity isn’t always reliable in rural areas. To solve all these problems at once, Northumbria University and the National Textile University are teaming up with Eco Research Ltd in England, and Prime Eurotech in Pakistan. While the universities develop textiles from banana waste, whatever can’t be used for textiles will be used in the production of synthetic gas (syngas) and nitrogen fertilizers. That way, they’ll address the problem of waste while providing clean energy to the very communities that grow the bananas in the first place. As banana waste is converted into textile fibers, it could become a new source of income for these communities too, while reducing the amount of waste generated by the textile industry. In all, the process could make use of nearly 88 million tons of agricultural waste produced by the banana industry to produce over two billion cubic feet of syngas and 33 million tons of fertilizer. Cleaning up two industries at once—who knew bananas had such wide a-peel?
[Image description: Several bananas arranged on a white background. One is halfway unpeeled.] Credit & copyright: alleksana, Pexels
September 3, 2024
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7 minFREEWork Business CurioFree4 CQ
From the BBC World Service: The trial of the former chief executive of Volkswagen, Martin Winterkorn, is getting under way in Germany over his role in a majo...
From the BBC World Service: The trial of the former chief executive of Volkswagen, Martin Winterkorn, is getting under way in Germany over his role in a majo...
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1 minFREEHumanities Word CurioFree1 CQ
Word of the Day
: September 3, 2024\KROH-nee-iz-um\ noun
What It Means
Cronyism is the unfair practice by a powerful person (such as a politi...
with Merriam-WebsterWord of the Day
: September 3, 2024\KROH-nee-iz-um\ noun
What It Means
Cronyism is the unfair practice by a powerful person (such as a politi...
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FREEAstronomy Daily Curio #2936Free1 CQ
If you’re stuck in outer space, the only thing more unsettling than the deafening silence is a sound that you don’t recognize. After being stranded in orbit for months, the astronauts aboard the Boeing Starliner have had to contend with changing plans, changing rides, and a strange, pulsing noise. Barry “Butch” Wilmore and Suni Williams launched from Cape Canaveral on June 5 for what was meant to be an 8-day mission to assess the capabilities of the Starliner. Built by Boeing, the craft was designed for regular missions to the International Space Station (ISS). But test flights often don’t go according to plan. First, there was a helium leak in the propulsion system followed by reaction control system thruster failures. Although the astronauts were able to fix the helium leak, NASA decided to take the cautious approach and delay the return trip until the cause of the failures could be better assessed. To that end, they tested Starliner thrusters back on Earth. Meanwhile, the astronauts were told that their mission would be extended for another six months.
Now, the plan is for the duo to abandon the Starliner altogether, staying on the ISS until they can hitch a ride back to earth aboard SpaceX’s Dragon Freedom, which will launch on September 24 and return with the stranded astronauts in February of next year, should everything go according to plan. With all that going on, Wilmore and Williams recently had to deal with yet another issue: a strange pulsing noise coming from the Starliner capsule. Fortunately, with everything else that has gone wrong, the mysterious sound was a relatively minor issue and was quickly resolved. Though it made headlines around the world when it was first discovered, it turned out to be feedback from a speaker on the capsule caused by its connection to the ISS. As for the astronauts, if they’re going to be stranded somewhere, at least it’s someplace with a view that can’t be beat.
[Image description: A dark night sky with stars visible.] Credit & copyright: Kai Pilger, PexelsIf you’re stuck in outer space, the only thing more unsettling than the deafening silence is a sound that you don’t recognize. After being stranded in orbit for months, the astronauts aboard the Boeing Starliner have had to contend with changing plans, changing rides, and a strange, pulsing noise. Barry “Butch” Wilmore and Suni Williams launched from Cape Canaveral on June 5 for what was meant to be an 8-day mission to assess the capabilities of the Starliner. Built by Boeing, the craft was designed for regular missions to the International Space Station (ISS). But test flights often don’t go according to plan. First, there was a helium leak in the propulsion system followed by reaction control system thruster failures. Although the astronauts were able to fix the helium leak, NASA decided to take the cautious approach and delay the return trip until the cause of the failures could be better assessed. To that end, they tested Starliner thrusters back on Earth. Meanwhile, the astronauts were told that their mission would be extended for another six months.
Now, the plan is for the duo to abandon the Starliner altogether, staying on the ISS until they can hitch a ride back to earth aboard SpaceX’s Dragon Freedom, which will launch on September 24 and return with the stranded astronauts in February of next year, should everything go according to plan. With all that going on, Wilmore and Williams recently had to deal with yet another issue: a strange pulsing noise coming from the Starliner capsule. Fortunately, with everything else that has gone wrong, the mysterious sound was a relatively minor issue and was quickly resolved. Though it made headlines around the world when it was first discovered, it turned out to be feedback from a speaker on the capsule caused by its connection to the ISS. As for the astronauts, if they’re going to be stranded somewhere, at least it’s someplace with a view that can’t be beat.
[Image description: A dark night sky with stars visible.] Credit & copyright: Kai Pilger, Pexels -
FREEMusic Appreciation Song CurioFree2 CQ
This hit is easy to groove to…if only it was as easy to understand. On this day in 2017, Walter Becker, co-founder and guitarist of American rock band Steely Dan, passed away. He left behind a legacy of hits, the best remembered of which just might be 1972’s Do It Again. The song features interesting instrumentation, including an electric sitar and a Yamaha YC-30 organ, the latter of which included a tool called a portamento ribbon. This “ribbon” controls what is known as the “portamento effect”, where the pitch of a note is gradually changed as it becomes another note. In other words, it creates a funky “slide” effect that helps give the song its unique flavor. The song’s lyrics are a bit harder to understand, as they fluctuate between talking about fighting on the street, to sorrow over a cheating partner, to issues with addiction, with a repeating refrain of “you go back, Jack, do it again,” suggesting that the song’s narrator probably hasn’t learned a lesson from his experiences. Hey, when you sound this good, you don’t have to make perfect sense.
This hit is easy to groove to…if only it was as easy to understand. On this day in 2017, Walter Becker, co-founder and guitarist of American rock band Steely Dan, passed away. He left behind a legacy of hits, the best remembered of which just might be 1972’s Do It Again. The song features interesting instrumentation, including an electric sitar and a Yamaha YC-30 organ, the latter of which included a tool called a portamento ribbon. This “ribbon” controls what is known as the “portamento effect”, where the pitch of a note is gradually changed as it becomes another note. In other words, it creates a funky “slide” effect that helps give the song its unique flavor. The song’s lyrics are a bit harder to understand, as they fluctuate between talking about fighting on the street, to sorrow over a cheating partner, to issues with addiction, with a repeating refrain of “you go back, Jack, do it again,” suggesting that the song’s narrator probably hasn’t learned a lesson from his experiences. Hey, when you sound this good, you don’t have to make perfect sense.
September 2, 2024
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3 minFREEHumanities Word CurioFree2 CQ
Word of the Day
: September 2, 2024\in-kun-DESS-unt\ adjective
What It Means
Incandescent has literal and figurative meanings. Its literal me...
with Merriam-WebsterWord of the Day
: September 2, 2024\in-kun-DESS-unt\ adjective
What It Means
Incandescent has literal and figurative meanings. Its literal me...
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FREEArt Appreciation Art CurioFree1 CQ
Today, Notre-Dame Cathedral is as famous as the city in which it resides, yet this beautiful Parisian landmark once fell into disrepair, and there was even talk of tearing it down. That all changed thanks to Victor Hugo's 1831 novel, Notre-Dame de Paris (The Hunchback of Notre Dame in English). The piece above is an illustration from an 1889 edition of the novel. It depicts a man hanging from a gargoyle. The man is being attacked by a crow as he dangles. Behind him is the city of Paris. In the early 1800s, Paris underwent a series of drastic changes. Following the ideals of the French Revolution, Parisians were eager to erase some of their ties to the past, including certain old buildings. But Hugo was a great admirer of Parisian architecture, and advocated for its preservation. His greatest success in this regard came in the form of his 1831 novel, which featured Notre-Dame as a sort of character as well as a setting. Readers were once again enchanted with the cathedral, and it was saved. In fact, thanks to Hugo, Paris has retained much of its historic architecture. Paris without Notre-Dame? That's like wine without cheese.
Notre-Dame de Paris, Luc-Olivier Merson (1846–1920), 1881, Pen and black ink, brush and black wash, white gouache and graphite on paper, 12.81 x 8.56 in. (32.6 x 21.7 cm.), The Cleveland Museum of Art, Cleveland, Ohio
[Image credit & copyright: Luc-Olivier Merson (French, 1846–1920), The Cleveland Museum of Art, Bequest of Muriel Butkin 2008.359, Public domain, Creative Commons Zero (CC0) designation.Today, Notre-Dame Cathedral is as famous as the city in which it resides, yet this beautiful Parisian landmark once fell into disrepair, and there was even talk of tearing it down. That all changed thanks to Victor Hugo's 1831 novel, Notre-Dame de Paris (The Hunchback of Notre Dame in English). The piece above is an illustration from an 1889 edition of the novel. It depicts a man hanging from a gargoyle. The man is being attacked by a crow as he dangles. Behind him is the city of Paris. In the early 1800s, Paris underwent a series of drastic changes. Following the ideals of the French Revolution, Parisians were eager to erase some of their ties to the past, including certain old buildings. But Hugo was a great admirer of Parisian architecture, and advocated for its preservation. His greatest success in this regard came in the form of his 1831 novel, which featured Notre-Dame as a sort of character as well as a setting. Readers were once again enchanted with the cathedral, and it was saved. In fact, thanks to Hugo, Paris has retained much of its historic architecture. Paris without Notre-Dame? That's like wine without cheese.
Notre-Dame de Paris, Luc-Olivier Merson (1846–1920), 1881, Pen and black ink, brush and black wash, white gouache and graphite on paper, 12.81 x 8.56 in. (32.6 x 21.7 cm.), The Cleveland Museum of Art, Cleveland, Ohio
[Image credit & copyright: Luc-Olivier Merson (French, 1846–1920), The Cleveland Museum of Art, Bequest of Muriel Butkin 2008.359, Public domain, Creative Commons Zero (CC0) designation. -
FREEEngineering Daily Curio #2935Free1 CQ
How do you turn devastation into hope? Turns out, the ingredients were there all along. A non-profit called Mobile Crisis Construction (MCC) is helping communities in Ukraine rebuild using rubble from the very war that has flattened so many Ukrainian buildings. MCC can take rubble and turn it into building blocks, which can be used to make new buildings. It sounds like recycling taken to extremes, but it’s simpler than it sounds. MCC has several mobile block factories which they can—as their name implies—deploy to wherever they’re needed. The factories are easy to transport because they’re modified to fit into a standard 20-foot shipping container. They take about 12 weeks to arrive at their destinations, but once they do, they can process enough rubble to produce around 33 to 44 tons of blocks every eight hours, which the MCC claims is enough for one school, five large houses, or ten small houses every week. What makes this possible is the unusual shape of the blocks, which look less like conventional bricks or cinder blocks and more like interlocking toy building blocks. Just like the toy version, they require no mortar to assemble because most of the blocks are molded into interlocking shapes that are simple to stack together. They also come with holes that can accommodate rebars for additional structural strength. According to the MCC, buildings constructed using their blocks can withstand earthquakes and cyclones. Of course, construction still requires the assistance of structural engineers and experienced workers on site, but the mobile factories at least address Ukraine’s current building-supply issue. Currently, MCC is focused on sending their factories to Ukraine, where they’re setting up near Kyiv. Once it becomes safe to do so, they plan to expand to other areas affected by the war. If all goes well, they’ll turn razed buildings into raised ones.
How do you turn devastation into hope? Turns out, the ingredients were there all along. A non-profit called Mobile Crisis Construction (MCC) is helping communities in Ukraine rebuild using rubble from the very war that has flattened so many Ukrainian buildings. MCC can take rubble and turn it into building blocks, which can be used to make new buildings. It sounds like recycling taken to extremes, but it’s simpler than it sounds. MCC has several mobile block factories which they can—as their name implies—deploy to wherever they’re needed. The factories are easy to transport because they’re modified to fit into a standard 20-foot shipping container. They take about 12 weeks to arrive at their destinations, but once they do, they can process enough rubble to produce around 33 to 44 tons of blocks every eight hours, which the MCC claims is enough for one school, five large houses, or ten small houses every week. What makes this possible is the unusual shape of the blocks, which look less like conventional bricks or cinder blocks and more like interlocking toy building blocks. Just like the toy version, they require no mortar to assemble because most of the blocks are molded into interlocking shapes that are simple to stack together. They also come with holes that can accommodate rebars for additional structural strength. According to the MCC, buildings constructed using their blocks can withstand earthquakes and cyclones. Of course, construction still requires the assistance of structural engineers and experienced workers on site, but the mobile factories at least address Ukraine’s current building-supply issue. Currently, MCC is focused on sending their factories to Ukraine, where they’re setting up near Kyiv. Once it becomes safe to do so, they plan to expand to other areas affected by the war. If all goes well, they’ll turn razed buildings into raised ones.
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8 minFREEWork Business CurioFree5 CQ
Latinas’ contribution to the U.S. economy grew more than 50% between 2010 and 2021. In 2021, it totaled $1.3 trillion, new data shows. But despite their econ...
Latinas’ contribution to the U.S. economy grew more than 50% between 2010 and 2021. In 2021, it totaled $1.3 trillion, new data shows. But despite their econ...