***Disclaimer***

Disclaimer: The Wizard of 'OZ' makes no money from 'OZ' - The 'Other' Side of the Rainbow. 'OZ' is 100 % paid ad-free

Wednesday, July 15, 2026

How it works: Credit cards

credit cards

How it worksCredit cards are financial tools that allow cardholders to borrow money from a financial institution, typically a bank, to make purchases or pay for services. Here's how they work:

  1. Application and Approval: To obtain a credit card, an individual must apply for one through a bank or financial institution. The application process typically involves providing personal information, such as name, address, income, and employment details. The financial institution evaluates the applicant's creditworthiness based on factors such as credit history, income, and debt-to-income ratio. If approved, the individual is issued a credit card with a predetermined credit limit, which represents the maximum amount they can borrow.

  2. Credit Limit: The credit limit is the maximum amount of money that the cardholder can borrow using the credit card. It is determined by the financial institution based on the applicant's creditworthiness and other factors. The cardholder can use the credit card to make purchases or transactions up to the credit limit. Exceeding the credit limit may result in penalties or fees.

  3. Making Purchases: When a cardholder uses a credit card to make a purchase, they are essentially borrowing money from the financial institution to complete the transaction. The cardholder presents the credit card to the merchant, who processes the payment using a card reader or online payment gateway. The transaction details, including the purchase amount and merchant information, are transmitted to the financial institution for authorization.

  4. Billing Cycle: Credit card transactions are typically grouped into billing cycles, which are usually monthly periods. At the end of each billing cycle, the financial institution issues a billing statement to the cardholder, detailing the transactions made during the cycle, the total amount owed, and the minimum payment due.

  5. Repayment: The cardholder is required to repay the borrowed amount, known as the credit card balance, within a specified timeframe, typically by the due date indicated on the billing statement. The cardholder can choose to repay the full balance or make a minimum payment, which is a percentage of the total balance. However, carrying a balance beyond the billing cycle incurs interest charges, which are calculated based on the annual percentage rate (APR) applied to the outstanding balance.

  6. Interest and Fees: Credit card issuers charge interest on outstanding balances that are not paid in full by the due date. The interest rate, or APR, varies depending on factors such as the cardholder's creditworthiness and the type of credit card. In addition to interest charges, credit cards may also have other fees, such as annual fees, late payment fees, and foreign transaction fees.

As for ownership, credit cards are typically owned by the financial institutions that issue them, such as banks or credit card companies. These institutions are responsible for managing the credit card accounts, processing transactions, setting credit limits and interest rates, and providing customer service to cardholders. While cardholders have possession of the physical credit cards and use them to make purchases, they do not own the underlying financial accounts associated with the cards.

Source: Some or all of the content was generated using an AI language model

FYI - Cap'n Crunch

Captain Horatio Magellan Crunch


FYICap’n Crunch is one of the most recognisable breakfast cereals in North America, famous for its sweet flavour, loud crunch, and its cartoon sea captain mascot. The cereal was introduced in 1963 by the Quaker Oats Company and is now part of PepsiCo.

The original cereal consists of small sweetened corn and oat squares. Its unusual flavour was inspired by a recipe involving butter, brown sugar, and rice, which flavourist Pamela Low helped transform into the signature Cap’n Crunch taste. The cereal was designed to stay crunchy longer in milk, leading to the famous slogan idea that it “stays crunchy.”

The character on the box is Cap’n Horatio Magellan Crunch, the captain of the fictional ship S.S. Guppy. He was created as part of the cereal’s marketing campaign, with animated commercials developed in the style of cartoons popular in the 1960s. Actor Daws Butler provided the original voice of Cap’n Crunch.

Over the years, many versions appeared:

  • Cap’n Crunch Original (1963) – the classic yellow squares.
  • Cap’n Crunch’s Crunch Berries (1967) – added colourful berry-shaped pieces.
  • Peanut Butter Crunch (1969) – introduced a peanut butter flavour and the mascot Smedley the elephant.
  • Oops! All Berries – a version containing only the berry pieces.

A funny bit of cereal trivia: many people joke that Cap’n Crunch is not actually a naval captain because his uniform historically did not match a real captain’s rank insignia. The company even updated his uniform details in later years to address the long-running joke.

Another famous complaint about Cap’n Crunch is that the pieces can feel surprisingly sharp on the roof of your mouth. The cereal’s dense, crunchy texture is part of its appeal — and also the reason it has earned the humorous nickname “mouth roof destroyer” among some fans. 😄

Despite being over 60 years old, Cap’n Crunch remains a nostalgic favourite, especially among people who grew up with Saturday morning cartoons, colourful cereal boxes, and toy surprises hidden in the pantry.

Trivia: The Captain's name is Horatio Magellan Crunch

Source: Some or all of the content was generated using an AI language model

Origins: The Super Soaker

Super Soaker

OriginsThe Super Soaker, an iconic water gun beloved by children and adults alike, has a fascinating origin story that begins with the inventive mind of Lonnie G. Johnson, an engineer and inventor with a passion for innovation.

Lonnie Johnson was born on October 6, 1949, in Mobile, Alabama. He displayed an early aptitude for science and engineering, and his natural curiosity led him to pursue a career in these fields. Johnson earned a Bachelor of Science degree in Mechanical Engineering from Tuskegee University in 1973 and later obtained a Master's degree in Nuclear Engineering from the same institution.

After completing his education, Johnson began working as a research engineer at the Air Force Weapons Laboratory in New Mexico. During his time there, he developed systems for powering and cooling nuclear reactors, which laid the foundation for his later inventions.

In the mid-1980s, while working on a heat pump design for a separate project, Johnson stumbled upon the idea that would eventually lead to the creation of the Super Soaker. He was experimenting with a new type of heat pump that used water instead of Freon, a common refrigerant, to create pressurized bursts of water vapour. One day, while testing a prototype in his bathroom, Johnson noticed that the stream of water produced by the device had a powerful and satisfying spray.

Realizing the potential of his accidental discovery, Johnson began tinkering with the concept, envisioning a toy water gun that could shoot powerful streams of water over long distances. He spent years refining the design, experimenting with different nozzle shapes, pump mechanisms, and pressure chambers to optimize performance and user experience.

In 1989, Lonnie Johnson founded his own company, Johnson Research & Development Co., Inc., to further develop and commercialize his water gun invention. He partnered with Larami Corporation, a toy manufacturer based in Philadelphia, to bring his creation to market.

The result was the Super Soaker, a revolutionary water gun that was unlike anything else on the market at the time. The Super Soaker featured a pump action mechanism that allowed users to build up pressure by pumping the handle, which could then be released to propel a powerful stream of water. Its innovative design, combined with its ability to shoot water farther and with more force than traditional squirt guns, made it an instant hit with children and adults alike.

Introduced in 1990, the Super Soaker quickly became a cultural phenomenon and a must-have summer toy. Its popularity soared, and sales skyrocketed, making it one of the most successful toy franchises of all time. The Super Soaker brand expanded to include a wide range of models, from compact pistols to giant water cannons, catering to a diverse audience of water warfare enthusiasts.

Lonnie Johnson's ingenuity and entrepreneurial spirit propelled him to success, and his invention has brought joy and excitement to generations of people around the world. The Super Soaker remains a beloved icon of summer fun and a testament to the power of creativity and innovation.

Source: Some or all of the content was generated using an AI language model

"Cumberground"

Cumberground is a wonderfully old-fashioned English insult meaning a person or thing that is completely useless—someone who merely takes up space and serves no worthwhile purpose.

The word combines two older English words:

  • cumber – to burden, hinder, or encumber.
  • ground – the earth or land.

Literally, a cumberground is someone who is "burdening the ground" simply by standing on it.

The term dates back to at least the 17th century, although it likely existed in spoken English even earlier. It was more common in the 18th and 19th centuries but has largely fallen out of everyday use.

Here are a few examples:

  • "The lazy servant was dismissed as nothing but a cumberground."
  • "Don't waste your life being a cumberground."
  • "He contributes nothing to the project—he's become a cumberground."

It's worth noting that cumberground is a harsh insult. It implies that a person's existence has no value or contribution. Today, it's more likely to appear in historical novels, dictionaries of archaic words, or discussions of unusual English vocabulary than in ordinary conversation.

The word has also been used figuratively for objects that are useless:

  • "That broken machine has become a cumberground in the garage."

English has several similarly colourful old insults that have largely disappeared from modern speech:

  • Lickspittle – a shameless flatterer or sycophant.
  • Coxcomb – a vain, conceited fool.
  • Milksop – a timid or weak-willed person.
  • Ninnyhammer – a simpleton or fool.
  • Fopdoodle – an insignificant fool.
  • Snollygoster – an unprincipled, cunning person, especially in politics.
  • Mooncalf – originally a malformed calf; later, a foolish or absent-minded person.
"Cumberground" is one of those delightfully expressive words that packs a surprising amount of meaning into a single term. Although it sounds almost humorous today, in its time it was considered a serious rebuke, suggesting someone was doing nothing more than occupying space on the earth. 🌍📚

Source: Some or all of the content was generated using an AI language model

Tuesday, July 14, 2026

Q & A: The vial in the casket

Casket


Q & AQ: Why is there a vial in a casket?

A: You may be thinking of a small clear tube that screws into the corner of the casket. It is located at the foot end of the casket, at the back, sort of where the left foot would be. It is at the very bottom of the casket, on the outside, and covered with a knurled metal knob, about 3/4 inch in diameter. It is sealed by a gasket against moisture getting into the tube.

This is a feature introduced by the Batesville casket company. They call it the “Memorial Record Tube.” I don’t know of any others that have copied them, but there could be some.

The purpose for this little tube is to hold a little slip of paper, about 1.5 x 6 inches, rolled up into a scroll. On this scroll, the Funeral Director would write identifying information so that the decedent, cemetery and funeral home could be identified without needing to open the casket looking for an ID band on the body.

You may have heard of severe flooding in places that washed out cemeteries, exposing caskets which then would be moved about by the flood waters. These caskets have to be identified so that they can be properly reburied.

This is the sort of thing the Memorial Record Tube is meant to address.

Some areas are not prone to this sort of problem, so some funeral directors do not take the time to fill it out. Also, a good number of cemeteries now attach a waterproof ID tag to the outside of the casket as the last step before lowering it into the grave. This serves the same purpose.

Source: Quora.com

Origins: The "440 Six Pack"

440 six pack

originsThe 440 Six Pack is an iconic engine in American automotive history, renowned for its power, performance, and presence. Developed by Chrysler Corporation during the golden age of muscle cars in the late 1960s and early 1970s, the 440 Six Pack represented a pinnacle of performance engineering, delivering formidable horsepower and torque figures that thrilled enthusiasts and racers alike.

At the heart of the 440 Six Pack is the legendary Chrysler RB (Raised B) engine platform, which debuted in 1959 and went through several iterations over the years. The 440-cubic-inch displacement version of this engine, introduced in 1966, quickly gained a reputation for its impressive output and durability. With its big bore and long stroke, the 440 RB engine was well-suited for high-performance applications, including drag racing, street racing, and muscle car production.

The "Six Pack" designation refers to the engine's distinctive induction system, which features three two-barrel carburetors mounted on an aluminum intake manifold. This setup was designed to maximize airflow into the engine, delivering a potent mixture of fuel and air to each cylinder for combustion. The result was a significant increase in horsepower and torque compared to single-carburetor configurations, making the 440 Six Pack one of the most formidable engines of its era.

The 440 Six Pack made its debut in 1969 as an option for several Chrysler, Dodge, and Plymouth models, including the Dodge Charger R/T, Plymouth Road Runner, and Plymouth Super Bee. These muscle cars became instant legends, thanks in large part to the brute force and tire-shredding performance of the 440 Six Pack engine. With horsepower ratings ranging from 375 to 390 horsepower, depending on the specific model and year, these vehicles were among the fastest and most powerful production cars of their time.

In addition to its raw power, the 440 Six Pack engine was known for its robust construction and reliability. Featuring a forged steel crankshaft, heavy-duty connecting rods, and high-flow cylinder heads, the engine was built to withstand the rigors of high-performance driving and racing. Its reputation for durability made it a favourite among drag racers and hot rodders, who often modified and tuned the engine for even greater levels of performance.

One of the key features of the 440 Six Pack engine was its distinctive sound, produced by the aggressive camshaft profile and the roar of three carburetors gulping air and fuel. The engine's deep, rumbling exhaust note became synonymous with American muscle cars of the era, serving as a visceral reminder of the power lurking under the hood.

Despite its legendary status, the 440 Six Pack engine faced challenges in the early 1970s due to tightening emissions regulations and rising fuel prices. As a result, Chrysler began detuning the engine and reducing its output to comply with emissions standards, leading to a decline in performance compared to earlier versions. However, the legacy of the 440 Six Pack lived on, as enthusiasts continued to cherish and preserve these iconic engines and the vehicles they powered.

Today, the 440 Six Pack remains a highly sought-after engine among collectors and enthusiasts, with restored and well-maintained examples commanding premium prices on the classic car market. Its place in automotive history is secure, as it represents the peak of American muscle car performance during a bygone era of high-octane excitement and adrenaline-fueled thrills.

In summary, the 440 Six Pack is much more than just an engine—it's a symbol of American ingenuity, innovation, and the pursuit of performance excellence. With its legendary power, unmistakable sound, and enduring legacy, the 440 Six Pack continues to captivate and inspire automotive enthusiasts around the world, ensuring its place in the pantheon of automotive greatness for generations to come.

Source: Some or all of the content was generated using an AI language model

FYI - On or off? The Wizard leaves his computer on 24/7

screensaver

FYII leave my PC 24/7 on as I am a distributed computing* contributor.  But I do have the monitor shut off after 30 min. Leaving a PC running continuously for an extended period can put some strain on its components, but modern computers are designed to handle continuous operation for long periods without significant damage. However, there are a few considerations:

  1. Heat: Continuous operation can lead to heat buildup, especially if the PC is not adequately cooled. Overheating can potentially damage components like the CPU and GPU. Ensuring good airflow and proper cooling can mitigate this risk.

  2. Dust Accumulation: Dust can accumulate inside the PC over time, especially if it's running continuously in a dusty environment. This can exacerbate heat buildup and potentially lead to hardware issues. Regular cleaning can help prevent this.

  3. Wear and Tear: Like any mechanical or electronic device, components in a PC experience wear and tear over time. Continuous operation may accelerate this process slightly, but modern hardware is generally designed to withstand a certain level of usage.

  4. Power Supply: Continuous operation can put strain on the power supply unit (PSU), especially if it's under heavy load for extended periods. A high-quality PSU and proper power management can help mitigate this risk.

In general, leaving a PC running continuously for several days or even weeks is unlikely to cause irreparable damage as long as the system is well-maintained, adequately cooled, and not subjected to excessive stress. However, it's always a good idea to give your PC occasional breaks and to perform routine maintenance to ensure its longevity.

Distributed Computing:

Distributed computing is a field of computer science that involves the use of multiple computers or nodes working together to solve a single problem or perform a task. In distributed computing, the workload is divided among multiple computers, which communicate and coordinate with each other to achieve the desired outcome.

Here are some key aspects of distributed computing:

  1. Parallel Processing: Distributed computing allows tasks to be divided into smaller subtasks that can be processed concurrently on multiple computers. This parallel processing can significantly speed up computation and enable the handling of large-scale problems that would be infeasible for a single computer to solve within a reasonable time frame.

  2. Fault Tolerance: Distributed systems are designed to be resilient to individual node failures. If one node in the system fails or becomes unavailable, the workload can be redistributed to other nodes to ensure continued operation. This fault tolerance enhances the reliability and availability of distributed systems.

  3. Scalability: Distributed computing systems can easily scale to accommodate growing workloads by adding more nodes to the network. This scalability allows organizations to expand their computing resources as needed without having to invest in expensive high-end hardware.

  4. Distributed Algorithms: Distributed computing often involves the development and implementation of specialized algorithms that enable efficient coordination and communication among distributed nodes. These algorithms govern how tasks are divided, executed, and synchronized across the network.

  5. Use Cases: Distributed computing finds applications in various domains, including scientific research, financial modeling, data analysis, and large-scale simulations. Projects such as SETI@home, Folding@home, and BOINC utilize distributed computing to harness the computational power of volunteers' computers worldwide for scientific research.

  6. Challenges: Despite its advantages, distributed computing poses several challenges, including ensuring data consistency and integrity across distributed nodes, managing communication overhead, dealing with network latency and bandwidth limitations, and implementing effective security measures to protect against unauthorized access and malicious attacks.

Overall, distributed computing enables the efficient utilization of distributed resources to tackle complex computational problems and is a critical component of many modern computing systems and applications.

Source: Some or all of the content was generated using an AI language model

The River Doesn't Give Them Back

Saskatoon Saskatchewan Canada


People think the strangest thing about Saskatoon is how quiet it gets in winter.

They're wrong.

The strangest thing is that, on certain nights in January, when the temperature drops below -40°C and the air is so cold it crackles, the South Saskatchewan River makes sounds that don't belong to ice.

I learned that the hard way.

It started after my night shift at the university. The city was buried under fresh snow, and the streets were nearly empty. The traffic lights changed for no one. My car wouldn't start, so I decided to walk across the University Bridge. It wasn't far, and I'd crossed it hundreds of times.

Halfway across, I heard footsteps.

Not behind me.

Beneath me.

They echoed through the steel framework of the bridge as though someone was walking on the frozen river itself.

Crunch.

Crunch.

Crunch.

I leaned over the railing.

Nothing.

Only a white sheet of snow covering the ice.

The footsteps stopped.

Then, from directly below me, a man's voice whispered, "Wait."

I nearly jumped over the railing.

There wasn't anyone there.

I hurried the rest of the way home, convincing myself the bridge had simply carried the sound from somewhere else.

The next morning, the news reported that nobody had been on the river that night. It was too dangerous. Large sections of ice were unstable because of the current beneath.

I forgot about it.

Until three nights later.

This time I heard knocking.

Three slow knocks.

From my apartment window.

I lived on the twelfth floor.

When I pulled back the curtain, frost covered the outside of the glass.

Someone had written a message with a finger.

THANK YOU FOR LISTENING.

The letters melted away before I could grab my phone.

That's when I began noticing them.

People standing by the river.

Always alone.

Always facing the water.

Never moving.

I'd drive by at six in the morning and see one.

At midnight, another.

During a blizzard, three at once.

Nobody else seemed to notice them.

One afternoon I finally approached an older man standing near the riverbank.

"Cold day," I said.

He didn't answer.

He simply pointed toward the frozen river.

There, beneath the ice, I saw dozens of dark shapes.

They weren't fish.

They looked like people.

Standing upright.

Looking back.

I blinked.

The river became empty again.

When I turned back, the old man was gone.

After that, sleep became impossible.

Every night the knocking returned.

Three knocks.

Every night.

Sometimes from the walls.

Sometimes from underneath my bed.

Sometimes from inside my apartment door.

Always three.

One morning, exhausted, I searched old newspaper archives.

Buried in an article from 1915 was a short paragraph about bridge workers disappearing during construction. The official report blamed thin ice.

But one sentence had been crossed out by hand.

"The missing men continued working beneath the river."

That made no sense.

Until the next snowfall.

Fresh snow covered the river overnight.

By sunrise, thousands of footprints stretched across the ice.

Every set began in the middle of the river.

Every one led toward the city.

None returned.

The police assumed pranksters.

Meteorologists blamed drifting snow.

No explanation ever fit.

That evening, emergency services received hundreds of calls from every neighbourhood in Saskatoon.

People reported hearing knocking inside their walls.

Three knocks.

Always three.

The city never released what officers found.

But several sections of the riverbank were fenced off for weeks afterward.

No construction.

No explanation.

Just fences.

I left Saskatoon that spring.

Moved nearly two thousand kilometres away.

The knocking stopped.

For years.

Until yesterday.

A courier delivered a package with no return address.

Inside was a glass jar filled with river ice that somehow hadn't melted.

Suspended inside was a folded note.

I unfolded it.

It contained only one sentence.

"The bridge is finished. Come see what we built."

I checked the tracking label.

It hadn't been mailed.

Under "Origin" was printed:

South Saskatchewan River, Saskatoon, Saskatchewan.

I threw the jar into the fireplace.

The ice didn't melt.

Last night, I woke to three slow knocks.

Not at my door.

From underneath the floorboards.

They're getting louder.

And between the knocks...

I can hear footsteps.

Someone is walking upward.

Source: Some or all of the content was generated using an AI language model

Monday, July 13, 2026

Is Bugatti losing money selling its Veyrons?

Bughatti Veyron
The statement that Bugatti incurred a loss with every sale of the Veyron is a common misconception. While it is true that the production costs of the Veyron were extremely high, particularly due to its advanced engineering and cutting-edge technology, Bugatti did not sell the Veyron at a loss. In fact, each Veyron sold generated a profit for Bugatti, albeit with relatively slim profit margins compared to other luxury car manufacturers.

The high production costs of the Veyron were offset by its premium price tag, which made it one of the most expensive production cars in the world. With a base price of over $1 million and numerous customization options available to buyers, Bugatti was able to recoup its production costs and turn a profit on each Veyron sold.

Furthermore, the Veyron played a crucial role in enhancing Bugatti's brand image and reputation as a manufacturer of high-performance luxury cars. The Veyron showcased Bugatti's engineering prowess and technical innovation, cementing its status as a leader in the automotive industry. The success of the Veyron paved the way for subsequent models such as the Chiron, which further solidified Bugatti's position in the ultra-luxury car market.

Additionally, Bugatti's decision to continue selling the Veyron even after its production costs were covered may have been influenced by strategic considerations, such as maintaining brand visibility, satisfying customer demand, and maximizing profitability over the long term. While the Veyron was eventually discontinued in 2015 after reaching its production limit, its legacy continues to shape Bugatti's identity and influence its future direction as a manufacturer of exclusive and high-performance automobiles.

Source: Some or all of the content was generated using an AI language model

FYI - The most prolific father

Moulay Ismail ibn Sharif

FYIThe man most often cited as the father of the most children in recorded history is Moulay Ismail ibn Sharif, the ruler of Morocco from 1672 until his death in 1727. Guinness World Records has credited him with fathering an extraordinary number of children — commonly reported as at least 867, with some historical accounts claiming over 1,000 (possibly 1,171).

Moulay Ismail was born around 1645 and became the second ruler of the Alaouite dynasty. He was known as a powerful, ambitious, and sometimes ruthless ruler who built up Morocco’s military strength, expanded his authority, and made the city of Meknes his capital.

His enormous number of children was possible because he had:

  • four wives
  • a very large harem, reportedly numbering hundreds of women
  • a long reign of more than 50 years

Historical records describe him as having fathered hundreds of sons and daughters. One account by French diplomat Dominique Busnot claimed he had 1,171 children, while other calculations based on historical records have produced lower but still staggering numbers.

The famous story behind his record is almost unbelievable: historians have calculated that to father hundreds of children over several decades, he would have needed an extremely high number of births occurring continuously for many years. Some modern researchers have questioned the exact totals because records from the 17th and 18th centuries are incomplete and sometimes exaggerated.

A common misconception is that Genghis Khan holds the record. He is famous for having millions of descendants today, but that is a different record — genetic descendants, not the number of children he personally fathered. Moulay Ismail is the person usually associated with the highest number of directly fathered children in historical records.

For comparison:

  • Moulay Ismail ibn Sharif: approximately 867–1,171 children claimed
  • Feodor Vassilyev (Russia): father of a reported 87 children (69 with his first wife and 18 with his second) — one of the most famous non-royal cases
  • Modern sperm donors: some have fathered hundreds of children, but these cases are recorded differently because they involve assisted reproduction rather than traditional parenthood.
Moulay Ismail’s story is one of those strange intersections of history, power, wealth, and human biology — a case where being a monarch dramatically changed what was possible for one person. 👑

Source: Some or all of the content was generated using an AI language model

FYI - Behind the EV push

Toyota EV


FYI"Behind EV Push" refers to the growing momentum behind the global shift towards electric vehicles (EVs) and the underlying factors driving this transition. As concerns about climate change, air pollution, and fossil fuel dependency continue to grow, governments, automakers, and consumers are increasingly turning to EVs as a cleaner, more sustainable alternative to traditional gasoline-powered vehicles. This shift is reshaping the automotive industry, influencing policies, and driving innovation in technology and infrastructure.

Environmental Concerns:

One of the primary drivers behind the push for EVs is growing awareness of the environmental impacts of transportation, particularly greenhouse gas emissions and air pollution. The transportation sector is a significant contributor to global carbon dioxide emissions, accounting for roughly one-quarter of total emissions worldwide. By transitioning to EVs powered by clean energy sources such as wind, solar, and hydroelectric power, it is possible to reduce carbon emissions and mitigate the impacts of climate change.

In addition to reducing greenhouse gas emissions, EVs also offer the potential to improve air quality by reducing harmful pollutants such as nitrogen oxides (NOx), particulate matter (PM), and volatile organic compounds (VOCs) emitted by traditional internal combustion engine vehicles. This can lead to health benefits, including reduced rates of respiratory illnesses and cardiovascular diseases, particularly in urban areas with high levels of air pollution.

Technological Advancements:

Advancements in battery technology and electric drivetrain systems have played a significant role in driving the adoption of EVs. Over the past decade, there have been dramatic improvements in battery energy density, cost, and durability, making EVs more affordable, practical, and accessible to consumers. Lithium-ion batteries, which are used in most modern EVs, have become increasingly efficient and affordable, enabling longer driving ranges and faster charging times.

In addition to batteries, advancements in electric drivetrain technology, including electric motors, power electronics, and regenerative braking systems, have contributed to the performance and efficiency of EVs. Electric drivetrains offer smoother acceleration, quieter operation, and lower maintenance requirements compared to traditional internal combustion engines, making EVs an attractive option for consumers seeking a more enjoyable driving experience.

Government Policies and Incentives:

Government policies and incentives have played a crucial role in promoting the adoption of EVs and driving investment in EV infrastructure. Many countries have implemented regulatory measures such as emissions standards, fuel efficiency regulations, and vehicle electrification targets to encourage automakers to produce more EVs and reduce their carbon footprint.

In addition to regulations, governments also offer a variety of financial incentives and subsidies to encourage consumers to purchase EVs, including tax credits, rebates, and grants for EV purchases, as well as funding for EV charging infrastructure development. These incentives help reduce the upfront cost of EVs and incentivize consumers to make the switch from gasoline-powered vehicles to EVs.

Consumer Demand and Awareness:

Growing consumer awareness of environmental issues, coupled with increasing concerns about rising fuel costs and energy security, has driven demand for EVs. Consumers are increasingly interested in vehicles that offer lower operating costs, reduced environmental impact, and advanced technology features. As EVs become more affordable, accessible, and appealing to a broader range of consumers, demand for EVs is expected to continue to grow.

In addition to environmental and economic considerations, consumers are also drawn to EVs for their performance, convenience, and versatility. EVs offer instant torque, smooth acceleration, and quiet operation, providing a more enjoyable and comfortable driving experience compared to traditional gasoline-powered vehicles. EVs also offer the flexibility to charge at home, at work, or at public charging stations, making them well-suited for a variety of lifestyles and driving habits.

Infrastructure Development:

The expansion of EV charging infrastructure is essential to support the widespread adoption of EVs and address consumer concerns about range anxiety. Governments, utilities, and private companies are investing in the deployment of EV charging stations in urban areas, along highways, and in residential and commercial developments.

In addition to public charging infrastructure, there is also growing interest in home charging solutions, including residential EV chargers and smart charging systems that allow consumers to monitor and control their charging sessions remotely. These investments in EV infrastructure are critical to ensuring the long-term viability and success of the EV market.

In conclusion, the push behind EVs is driven by a combination of environmental concerns, technological advancements, government policies, consumer demand, and infrastructure development. As these factors continue to evolve and converge, the transition to EVs is expected to accelerate, leading to a cleaner, more sustainable future for transportation. By embracing EVs and investing in the necessary infrastructure and support systems, stakeholders can help realize the full potential of electric mobility and address the pressing challenges of climate change and air pollution.

Source: Some or all of the content was generated using an AI language model

FYI - Bark Bread

Bark Bread

FYIBark bread is one of the most unusual survival foods in history: a bread made partly from the inner bark of trees. It was traditionally eaten in parts of Scandinavia, especially Finland, Sweden, and Norway, during times when grain was scarce or harvests failed.

The important detail is that it was not made from the rough outer bark of a tree. People used the soft, living inner layer called the cambium/phloem, which carries nutrients through the tree. This layer was dried, roasted, and ground into a powder called bark flour. It was then mixed with rye or barley flour and baked into bread.

The Finnish version is known as pettuleipä (“pettu bread”). Scots pine was commonly used, although birch and other trees were also used in different regions. The bark flour helped stretch limited grain supplies, especially during severe famines such as those that affected Finland and Sweden in the 17th and 19th centuries.

What did bark bread taste like?

Descriptions vary, but it was generally considered:

  • earthy and slightly bitter
  • dense and heavy
  • sometimes with a faint resin or wood-like flavour
  • darker or greenish-grey in colour

Because bark contains a lot of fibre and does not behave like normal flour, the bread was usually flat and tough, and it did not rise as well as ordinary bread.

Was it nutritious?

Bark bread was mainly a survival food, not a luxury food. It provided:

  • some carbohydrates and fibre
  • minerals and some nutrients from the inner bark
  • a way to reduce hunger when grain was unavailable

However, it was not a complete replacement for normal food and could contribute to poor nutrition if people depended on it for long periods.

Why would anyone eat tree bark?

During famine, people had to find ways to make small amounts of grain last longer. Bark flour could effectively “stretch” a sack of flour into more meals. Similar famine foods included moss, lichen, straw mixtures, and other substitutes that would normally never be considered food.

Interestingly, bark harvesting was not always just desperation. Among the Sámi people of northern Scandinavia, pine bark was also part of traditional food practices and was valued as a seasonal resource.

Today, bark bread is mostly a historical curiosity and a symbol of human ingenuity during hard times. Some Nordic food researchers and traditionalists have revived it as a heritage food, but you are far more likely to encounter it in a museum or specialty food demonstration than on a bakery shelf.

A fascinating side note: humans actually eat tree products all the time — cinnamon is tree bark — but bark bread is one of the rare cases where bark itself became the main ingredient of a staple food. 🌲🍞

Source: Some or all of the content was generated using an AI language model

'OZ' is celebrating 11,000,000 visitors!

I am humbled. 11 Million visitors! 11,000,000! Thanks to all my readers. This is celebrating you!
'OZ' is celebrating 11,000,000 visitors


Origins: Make America Gay Again!

Make America Gay again!

originsThe history of the gay community in the United States is rich, complex, and marked by struggles for acceptance, equality, and rights. From the early colonial period to the present day, LGBTQ+ individuals have faced discrimination, persecution, and violence, but they have also organized, advocated, and fought for their rights, leading to significant social and legal changes over time.

Colonial America and Early Republic:

In colonial America, European settlers brought with them rigid religious and moral beliefs that condemned same-sex relationships and non-conformity to traditional gender roles. Sodomy laws were enacted, criminalizing same-sex sexual activity, and individuals found guilty of engaging in such behaviour faced severe punishment, including imprisonment, fines, and even death.

Despite the persecution and stigma, evidence suggests that same-sex relationships and gender non-conformity existed in colonial society, albeit often concealed or relegated to the margins. LGBTQ+ individuals formed underground networks and social circles, seeking companionship and support in a hostile environment.

19th Century:

During the 19th century, as the United States underwent rapid industrialization and urbanization, cities became centres of LGBTQ+ life and culture. Urban areas like New York City, San Francisco, and New Orleans became known for their vibrant queer communities, including bars, clubs, and social organizations.

However, LGBTQ+ individuals continued to face discrimination and persecution, and police raids on gay bars and gathering places were not uncommon. The legal and social landscape remained hostile to non-heteronormative identities and relationships, and LGBTQ+ individuals were often subjected to harassment, violence, and legal sanctions.

Early 20th Century:

The early 20th century saw the emergence of early LGBTQ+ advocacy organizations and publications, as well as the development of a nascent gay rights movement. In 1924, the Society for Human Rights was founded in Chicago, becoming one of the first known gay rights organizations in the United States. However, it was short-lived, as police repression and internal conflicts led to its demise.

Despite setbacks, LGBTQ+ individuals continued to organize and advocate for their rights, forming social networks, support groups, and publishing underground magazines and newsletters. These efforts laid the groundwork for the emergence of a more visible and cohesive gay rights movement in the latter half of the 20th century.

Post-World War II and the Homophile Movement:

Following World War II, there was a gradual increase in visibility and acceptance of LGBTQ+ individuals, fueled in part by changing social attitudes and the influence of cultural movements such as the Beat Generation and the counterculture of the 1960s. In 1950, the Mattachine Society was founded in Los Angeles, becoming one of the first national gay rights organizations in the United States. The Mattachine Society and similar groups, collectively known as the homophile movement, sought to challenge anti-gay discrimination and advocate for the rights of LGBTQ+ individuals.

Stonewall Riots and the Birth of the Modern Gay Rights Movement:

The modern gay rights movement gained momentum with the Stonewall Riots of 1969, a series of spontaneous demonstrations in response to a police raid on the Stonewall Inn, a gay bar in New York City's Greenwich Village. The riots, led primarily by LGBTQ+ people of colour, including transgender women and drag queens, marked a turning point in the struggle for LGBTQ+ rights, galvanizing the community and sparking a wave of activism and organizing across the country.

1970s and 1980s:

In the aftermath of Stonewall, LGBTQ+ activism flourished, with the establishment of numerous advocacy organizations, community centres, and publications. The 1970s saw the emergence of Pride marches and parades, commemorating the anniversary of the Stonewall Riots and celebrating LGBTQ+ identity and visibility.

However, the 1980s brought new challenges with the emergence of the HIV/AIDS epidemic, which disproportionately affected LGBTQ+ communities, particularly gay men and transgender women of colour. The epidemic exacerbated existing social stigma and discrimination, leading to widespread fear, misinformation, and neglect by government and medical authorities.

1990s and 2000s:

In the 1990s and 2000s, LGBTQ+ activism continued to evolve, with a focus on legal and political advocacy, as well as efforts to combat HIV/AIDS and promote LGBTQ+ visibility and acceptance. Key milestones during this period included the repeal of sodomy laws in several states, the legalization of same-sex marriage in some jurisdictions, and the passage of federal hate crime legislation and anti-discrimination protections for LGBTQ+ individuals.

21st Century and Beyond:

The 21st century has seen significant progress in the fight for LGBTQ+ rights, including the nationwide legalization of same-sex marriage in 2015, a landmark decision by the U.S. Supreme Court in Obergefell v. Hodges. However, challenges remain, including ongoing discrimination, violence against LGBTQ+ individuals, and efforts to roll back LGBTQ+ rights and protections.

In recent years, there has been growing awareness and advocacy around issues such as transgender rights, conversion therapy bans, and the inclusion of LGBTQ+ people in non-discrimination policies and healthcare access. The LGBTQ+ community continues to organize, mobilize, and push for full equality and acceptance in all areas of society.

In conclusion, the history of the gay community in the United States is a story of resilience, resistance, and progress in the face of adversity. From the shadows of persecution and discrimination to the forefront of social and political change, LGBTQ+ individuals have fought tirelessly for their rights and dignity, leaving a legacy of courage, activism, and hope for future generations.

Source: Some or all of the content was generated using an AI language model

Finch and Thorne - Finch & Thorne: The Smiling Signal

Finch and Thorne


The first transmission arrived at precisely 3:17 a.m.

It interrupted radio stations across England for only twelve seconds. Music stopped. Emergency broadcasts cut off. Amateur radio operators heard it. Air traffic controllers heard it. Even an old wireless set sitting unplugged in a museum reportedly emitted the signal.

It contained no words.

Only the sound of someone smiling.

Not laughing.

Not breathing.

Just... smiling.

Experts insisted that smiling makes no sound at all.

Yet everyone who heard the transmission agreed they had.


Three weeks later, Aldous Finch received a wax cylinder in the post.

No return address.

No note.

Only a label.

DO NOT PLAY ALONE.

Naturally, Finch waited until Dr. Everett Thorne arrived before placing it upon his phonograph.

The recording hissed.

Then came twelve seconds of absolute silence.

Thorne frowned.

"Is this some sort of joke?"

Finch quietly wound the machine again.

This time they heard it.

Not through their ears.

Inside their thoughts.

A smile.

The unmistakable feeling that somewhere...

Someone had just smiled directly at them.

The phonograph needle snapped in half.


Their investigation led them to the abandoned village of Bracken Fold.

Every house stood empty.

Meals remained upon tables.

Books lay open.

Children's toys rested where they had been dropped.

Yet no bodies had ever been found.

The village had simply...

Stopped containing people.

An old railway sign still stood beside the station.

Its destination board listed every nearby town.

Except one.

Someone had scratched another destination beneath the paint.

LAST STOP.


The stationmaster's office contained a timetable.

Every train was crossed out except one.

Train 317.

Departure:

3:17 a.m.

Arrival:

No destination listed.

Only one sentence.

Everyone smiles before arrival.


That night they waited upon the deserted platform.

Nothing moved.

No insects.

No wind.

Even the stars appeared fixed.

At exactly 3:17...

The rails began humming.

Not vibrating.

Humming.

Like voices singing beneath miles of steel.

A distant headlight appeared.

It approached silently.

Too silently.

Steam emerged.

Wheels turned.

Yet no sound accompanied them.

The train stopped.

Every carriage window contained passengers.

All smiling.

None blinking.


The conductor stepped onto the platform.

He wore an immaculate uniform several decades out of date.

His face looked ordinary.

Except his smile.

It reached far beyond where cheeks should end.

He tipped his hat.

"Two passengers."

"We're not travelling," Finch replied.

The conductor consulted a pocket watch.

"Everyone travels."

"No."

"You already boarded."


Thorne looked confused.

"We haven't moved."

The conductor smiled wider.

"You mistake movement for distance."


The carriage doors opened.

Nobody inside moved.

Hundreds of smiling faces stared outward.

Children.

Soldiers.

Nuns.

Doctors.

Factory workers.

Victorian gentlemen.

Modern businessmen.

Some looked centuries old.

Others wore clothes not yet invented.

Every pair of eyes focused solely upon Finch.


Something tugged gently at his sleeve.

A little girl stood beside him.

She hadn't been there moments earlier.

"Please don't smile," she whispered.

"What happens if I do?"

"They'll know you've seen them."

"Seen who?"

"The passengers."

She slowly pointed upward.

Not toward the train.

Toward the night sky.

The stars...

Were smiling.


Thorne suddenly laughed.

Not because anything was funny.

Because his mouth had begun moving by itself.

His lips stretched farther...

And farther...

Blood appeared at the corners of his mouth.

"Everett!"

"I can't stop..."

His teeth showed.

Then more teeth appeared behind the first row.

Then another.

Like a shark.

Finch struck him sharply across the face.

The smile vanished instantly.

The conductor sighed.

"So few refuse."


Finch noticed something impossible.

The train cast no shadow.

Instead...

Everything nearby cast shadows toward it.

As though darkness itself wished to board.


He removed a polished silver cigarette case from his pocket.

Holding it like a mirror, he faced the conductor.

For the first time...

The conductor looked afraid.

His reflection wasn't smiling.

It had no face.

Only an endless railway tunnel stretching into impossible darkness.

The conductor slammed the mirror shut.

The train screamed.

Not the whistle.

The train itself.

Thousands of voices cried out at once.

Every passenger simultaneously turned to stare at something behind them.

Something approaching through the rear carriages.

Something none of them wished to meet.


The conductor shouted,

"Close your eyes!"

Finch did.

Thorne did not.

Later, he could never describe what he'd seen.

Only that the thing moving through the train wasn't walking.

It was arriving.

One impossible inch at a time.

Each arrival caused another passenger to disappear.

Not vanish.

Simply become someone who had never existed.

Photographs changed.

Newspapers rewrote themselves.

Entire families forgotten.


The scream ended.

The humming stopped.

Morning sunlight warmed the platform.

The train was gone.

Only rusted tracks remained.

Thorne stood silently.

His hair had turned almost completely white.

"What did you see?" Finch finally asked.

Thorne answered without looking at him.

"It smiled first."


The official report blamed exhaustion and shared hallucinations.

Bracken Fold was demolished.

The railway line was removed.

The station buried beneath concrete.

Maps no longer mention it.

Most records insist it never existed.

Even Finch's notebooks contain only blank pages where his observations should have been.

Except for one final entry, written in handwriting neither he nor Thorne recognised:

The next train leaves tonight.

3:17 a.m.

You needn't buy a ticket.

You've already boarded.

If you happen to wake at exactly 3:17 a.m. and hear the faint hum of railway tracks outside your window, resist every instinct to look.

And whatever you do...

Don't smile.

Source: Some or all of the content was generated using an AI language model