Jungshin Taekwon-do

Following a successful grading last night, we have a new blue tip, Maddison . Very well done. Maddison is pictured with proud mum Kelly who is a 6th degree black belt herself.
We still have availability for beginners on Monday and Thursday evenings
7pm to 8pm in Kibworth village hall. Contact me, Steve Taylor 8th degree black belt instructor on
07835607942

Ukraine didn’t try to kill Putin, CIA tells Trump 🚨

In the beloved British sitcom "Only Fools and Horses," the character Trigger, portrayed by Roger Lloyd-Pack, stands out as a particularly memorable figure. His real name is Colin Ball, but he is universally known by his nickname, which, according to Del Boy, is because he "looks like a horse."

A road sweeper by profession, Trigger is characterised by his simple-minded yet affable nature. One of his enduring comedic traits is his unwavering habit of calling Rodney Trotter "Dave," despite numerous corrections—a running joke that has delighted audiences throughout the series.

Roger Lloyd-Pack's portrayal of Trigger contributed significantly to the show's success, with his deadpan delivery and impeccable timing. Lloyd-Pack's performance left an indelible mark on British television comedy, ensuring that Trigger remains a cherished character in the annals of sitcom history.

A Chinese automotive supplier has redesigned the traditional airbag to create what it calls the world’s first helmet-style airbag built directly into vehicle seats, aiming to improve passenger protection in crashes.

The system inflates around the head, neck, shoulders, and spine, deploying alongside side airbags to envelop occupants rather than protecting a single impact point.

Integrated sensors linked to driver-assistance systems can detect whether a seat is reclined during a crash and automatically return it to an upright position within milliseconds.

Reports say the system may debut in the Luxeed V9, a joint project involving Huawei and Chery.

Reform leader says party campaign will also focus on cost of living and mass migration ahead of May local elections ⬇️
https://www.telegraph.co.uk/politics/2026/01/01/farage-vows-to-restore-law-and-order-to-london/?WT.mc_id=tmgoff_fb_photo_law-and-order-to-london/

In 1843, she wrote the world's first computer program—for a computer that didn't exist and wouldn't exist for another 100 years.
London, 1815
Ada Lovelace was born Augusta Ada Byron on December 10, 1815, the daughter of one of England's most famous poets and one of its most unusual mothers.
Her father was Lord Byron—the romantic poet, the scandalous celebrity, the man whose poetry made women swoon and whose personal life shocked Victorian society.
Her mother was Annabella Milbanke—mathematician, moralist, deeply committed to education and rationality.
The marriage lasted barely a year. Byron left when Ada was one month old. Ada never saw him again—he died in Greece when she was eight.
Annabella raised Ada with a specific purpose: to ensure she did not inherit her father's "dangerous" imagination and romantic temperament.
So she drilled Ada in mathematics. Logic. Science. Discipline.
It didn't work quite as planned.
Ada inherited her father's imagination and her mother's precision—a rare combination in any era, but especially in one that expected women to marry, embroider, and otherwise ornament drawing rooms rather than think.
The Meeting That Changed Everything
In 1833, when Ada was 17, she attended a demonstration by inventor Charles Babbage.
Babbage was obsessed with a machine he called the Difference Engine—a mechanical calculator designed to compute mathematical tables automatically. He'd already built a working prototype, and he was planning something even more ambitious: the Analytical Engine.
Most people who saw Babbage's designs saw gears, levers, and complicated mechanical systems. Interesting, perhaps, but ultimately just fancy calculators.
Ada saw something else entirely.
She saw a machine that could process symbols, not just numbers. A machine that could follow instructions and manipulate abstract concepts. A machine that could, theoretically, represent anything—music, language, images—if you could encode it properly.
She saw, in other words, the fundamental concept of modern computing—a century before computers existed.
The Collaboration
Ada and Babbage began a years-long intellectual collaboration. She studied mathematics intensively, working with tutors to master advanced concepts. She corresponded with Babbage about the Analytical Engine's potential.
In 1842, Italian mathematician Luigi Menabrea published an article in French about Babbage's Analytical Engine. Babbage asked Ada to translate it into English.
She did—and then she added her own notes.
These weren't minor footnotes. They were extensive annotations labeled A through G, ultimately longer than the original article itself.
Note G: The First Algorithm
In Note G, Ada Lovelace did something unprecedented:
She described a method for the Analytical Engine to calculate Bernoulli numbers—a sequence of rational numbers used in number theory and analysis.
She laid out, step-by-step, how the machine would process this calculation. What modern programmers would call an algorithm.
This is considered the first computer program ever written—a set of instructions for a machine to execute automatically.
But Ada went further than just creating an algorithm.
The Vision Beyond Calculation
Ada Lovelace understood something that even Charles Babbage didn't fully grasp:
The Analytical Engine wasn't just a calculator. It was a general-purpose computing machine.
In her notes, she wrote:
"The Analytical Engine might act upon other things besides number... the engine might compose elaborate and scientific pieces of music of any degree of complexity or extent."
She envisioned a machine that could manipulate symbols representing anything—numbers, yes, but also letters, musical notes, visual patterns. Anything that could be encoded.
She understood the concept of what we now call software—that the same machine could perform different tasks by following different instructions.
She even speculated about machine creativity and artificial intelligence, while simultaneously noting the machine's limitations—it could only do what it was instructed to do, it couldn't originate anything on its own.
This was 1843.
Photography was barely a decade old. Darwin hadn't published Origin of Species yet. The telegraph was just being developed.
And Ada Lovelace was describing programmable computers and theorizing about their potential to process any kind of symbolic information.
The Dismissal
Ada's vision was so far ahead of its time that most people simply didn't understand it.
Her notes were published in 1843 in an English scientific journal. Some people read them. Most didn't grasp their significance.
The Analytical Engine was never built—Babbage couldn't secure funding, and the mechanical technology of the era couldn't reliably manufacture the thousands of precision parts required.
So Ada's algorithm remained theoretical. Her vision remained largely unrecognized.
She continued her mathematical studies, but struggled with illness. She died of uterine cancer in 1852, at just 36 years old—the same age her father had been when he died.
The Century of Silence
For over a hundred years, Ada Lovelace's contributions were largely forgotten or minimized.
When mentioned at all, she was usually described as Babbage's assistant, a talented amateur, a woman who'd been useful to a male genius but hadn't contributed original ideas.
Her notes were available in archives. Anyone could have read them. But no one quite understood their significance until computers actually began to exist.
The 20th Century Rediscovery
In the 1940s and 1950s, as the first electronic computers were being developed—ENIAC, UNIVAC, early programming languages—engineers began looking back at the history of computational thinking.
And they discovered Ada Lovelace's notes.
They realized that this Victorian-era woman, writing about a mechanical computer that was never built, had described their entire field a century too soon.
She'd understood algorithms. She'd grasped the concept of software separate from hardware. She'd envisioned general-purpose computing. She'd theorized about symbolic manipulation beyond pure calculation.
In 1979, the U.S. Department of Defense named a new programming language Ada in her honor—recognizing her as the first computer programmer.
What She Proved
Ada Lovelace proved that imagination is its own kind of science.
That you don't need to touch hardware to understand software.
That theoretical vision can be as important as practical engineering.
That women in the 19th century were capable of the same abstract, complex, visionary thinking as men—they were just rarely given the education, opportunity, or recognition.
The Quiet Irony
There's a profound irony in Ada Lovelace's story:
A woman from the Victorian age, constrained by corsets and social expectations, saw the digital age coming.
A woman who never touched a keyboard became the first computer programmer.
A woman whose mother tried to suppress her "dangerous" imagination used that imagination to envision a technology that would transform human civilization.
A woman who died at 36, largely unrecognized, became immortalized in the field she helped found.
The Daughter of Byron
Annabella Milbanke tried to raise Ada without her father's romantic imagination.
But in the end, Ada needed both: Byron's vision and Annabella's mathematics.
The poetry and the logic. The imagination and the precision.
That combination—the ability to dream beyond the possible and the technical skill to describe it rigorously—is what made her insights revolutionary.
The Legacy
Today, Ada Lovelace is celebrated annually on Ada Lovelace Day (second Tuesday of October)—a day recognizing women in STEM fields.
She's taught in computer science courses as the first programmer.
She's cited in discussions of AI, creativity, and the philosophy of computing.
But perhaps most importantly, she's proof that the future often begins in the mind of someone the world isn't ready to believe.
Ada Lovelace (1815-1852)
Daughter of a poet and a mathematician.
First computer programmer.
Visionary who saw software before hardware existed.
Woman who understood in 1843 what most people wouldn't grasp until 1943.
She wrote an algorithm for a machine that didn't exist.
She envisioned computers creating music and art.
She understood symbolic manipulation and general-purpose computing.
She died unrecognized and was rediscovered a century later.
In 1843, she wrote the world's first computer program—for a computer that wouldn't exist for another 100 years.
That's not just impressive.
That's visionary.
And it's a reminder: the people who see the future first are often the ones dismissed as "too imaginative" by those who can only see the present.
Ada Lovelace was too imaginative for her time.
Which means she was exactly imaginative enough for ours.

Not looking good for Starmer 🤔

Classic line from Alf Garnett – still makes me laugh to this day.

“Here she comes, Zola Budd…” is one of those throwaway lines that lands perfectly.

For anyone wondering who Zola Budd was, she was a South African-born middle and long-distance runner who famously competed barefoot in the 1980s. She raced for both Great Britain and South Africa and became a huge talking point, particularly around the 1984 Olympics, where she was right at the centre of public and media attention.

It’s very much a line of its time, but that’s exactly why it sticks. A sharp reference, instantly recognisable back then, and delivered in that unmistakable Alf Garnett way.

Still cracks me up every time I hear it.

Calls to denaturalize and deport Somalis for allegedly defrauding the government have swelled as Minnesota’s fraud crisis deepens.

'The BBC has run out of money - absolutely atrocious!' 🤬

As a new year begins, many of us are hoping for something simple.

Better days, lighter hearts, and fewer worries carried alone. After everything we’ve been through, hoping feels brave.

This is a reminder of how much comfort matters. Companionship, mental health, emotional support, and small moments of care can make cold seasons feel warmer. Love from family, friends, and loyal pets helps us keep going when life feels heavy.

May 2026 bring healing where it’s needed most. More kindness, more understanding, and more reasons to believe things can improve. Sometimes hope itself is the first step forward.