Everything Everywhere Daily: History, Science, Geography & More - Ada Lovelace: The World’s First Computer Programmer

Episode Date: September 29, 2022

Born in 1815, Ada Byron was the only legitimate child of the famous poet Lord Byron.  Unlike her famous father, Ada did not pursue a literary career. Guided by her mother, she took a diametrically di...fferent path studying math and logic. At the age of 17, she had a chance encounter with Charles Babbage, who was designing the world’s first mechanical computer. It was the beginning of a groundbreaking collaboration that would only be understood over a century later. Learn more about Ada Lovelace, the world’s first computer programmer, on this episode of Everything Everywhere Daily. Subscribe to the podcast!  https://link.chtbl.com/EverythingEverywhere?sid=ShowNotes -------------------------------- Executive Producer: Darcy Adams Associate Producers: Peter Bennett & Thor Thomsen   Become a supporter on Patreon: https://www.patreon.com/everythingeverywhere Update your podcast app at newpodcastapps.com Discord Server: https://discord.gg/UkRUJFh Instagram: https://www.instagram.com/everythingeverywhere/ Facebook Page: https://www.facebook.com/EverythingEverywhere Facebook Group: https://www.facebook.com/groups/everythingeverywheredaily Twitter: https://twitter.com/everywheretrip Website: https://everything-everywhere.com/everything-everywhere-daily-podcast/ Everything Everywhere is an Airwave Media podcast. Please contact sales@advertisecast.com to advertise on Everything Everywhere. Learn more about your ad choices. Visit megaphone.fm/adchoices

Transcript
Discussion (0)
Starting point is 00:00:00 Born in 1815, Ada Byron was the only legitimate child of the famous poet, Lord Byron. Unlike her famous father, Ada did not pursue a literary career. Guided by her mother, she took a diametrically different path, studying math and logic. At the age of 17, she had a chance encounter with Charles Babbage, who was designing the world's first mechanical computer. It was the beginning of a groundbreaking collaboration that would only be understood over a century later. Learn more about Ada Lovelace, the world's first computer programmer,
Starting point is 00:00:29 on this episode of Everything Everywhere Daily. What if your perceptions about the past were wrong? ThruLine is a podcast that takes you back in time to uncover the parts of the story that may have gone unnoticed. It effectively turned day into night. And how it shaped the world now. Time travel with us every week on the ThruLine podcast from NPR. Ada Byron was born on December 15th, 1815,
Starting point is 00:01:14 to the Lord and Lady Byron. Her father, George Gordon Byron, was one of the best-known English poets of the romantic era. He actually came upon his title, The Fifth Baron of Byron in 1798 at the age of 10, from a great uncle who died without any heirs. While a brilliant poet, he developed a reputation as being an agnostic and a libertine, which was scandalous in the early 19th century. Ada's mother, Annabel Milbank, grew up in a strict religious household. She was tutored in mathematics and science, and her marriage to the poet Lord Byron was considered by many to be a very odd pairing. It turns out that what many people thought about the relationship turned out to be right. As brilliant of a poet as Lord Byron was, he was horrible as a husband and father. Just one month after Ada was born, her mother took her to live with her family,
Starting point is 00:02:03 because Lord Byron refused to stop having an affair with an actress he was seeing. At the time in England, if a couple were to separate, custody of any children would be given to the father. Lord Byron, however, didn't challenge the custody and never saw his daughter again. The couple legally separated but remained technically married until Lord Byron's death in 1824 in Greece when Ada was only eight years old. Lord Byron had no part in Ada's upbringing whatsoever. The split between Ada's mother and father was very acrimonious, with Lady Byron making accusations about her husband's morality. It was so bad that Lady Byron wanted to make sure that Ada didn't wind up like her father. The last thing she wanted was for her daughter to become a flaky, temperamental poet,
Starting point is 00:02:46 so she had her tutored in mathematics and logic, as well as a host of other subjects, including foreign languages. This was a very odd education for a woman in early 19th century England. It was still a hundred years before the first women would be admitted to Oxford or Cambridge, and the education for an aristocratic woman usually consisted of music, language, and literature. Ada's mother had a similar education, for which Lord Byron mocked her, calling her the princess of parallelograms. At the age of 12, Ada showed curiosity and promise. She became interested in the idea of flying,
Starting point is 00:03:19 which was still 80 years away. She did a study of birds and wings and made drawings and wrote a book called Flyology. She even considered the integration of a steam engine with her flying machine. If this reminds you of someone else, it should. A guy by the name of Leonardo da Vinci. Granted, she was only 12 years old, and like Leonardo, her designs would never actually fly. But the point was, she was thinking about the problem, and in particular, considered the integration of the most important invention of the age, the steam engine.
Starting point is 00:03:52 Ada's tutors were all top-notch and included Mary Somerville, a Scottish astronomer and mathematician who was one of the first women inducted into the Royal Astronomical Society. To put this into simple modern terms, Ada was homeschooled by some of the best teachers, and was really smart. The event which would change her life and make her noteworthy enough for an episode of this podcast took place in 1833 when she was just 17. At a party which was held by the aforementioned Mary Somerville, she met the English mathematician Charles Babbage. Babbage held the location chair of mathematics at Cambridge, the same title once held by Isaac Newton and later by Stephen Hawking. At the party, Babbage was drawn into a conversation with Ada and told her about the machine he was working on called the Differentestown. engine. I previously did an episode on the Babbage Difference Engine. To summarize, it was the world's first mechanical computer. Babbage's difference engine could perform calculations, unlike
Starting point is 00:04:47 machines that came before it, which were basically just complicated clocks. You could give the machine an input and then get an output. There was even rudimentary memory and a method of outputting data. It did all of the basic functions of a modern computer. It just did it without electricity, and with thousands of gears. Several months later, Babbage invited a Ada to come and see his difference engine. She became fascinated by the device and came by as often as as possible to talk to Babbage, who found her intellect stimulating. In 1935, she went on to marry Baron William King, who was later upgraded to the Earl of Lovelace, thanks to a distant relative on the part of Ada, making her the Countess Love Lace. They had three children for the next four
Starting point is 00:05:28 years, and all the while, Ada never lost interest in Charles Babbage and his difference engine. Her big break occurred in 1842. She was asked to try to try and her. She was asked to try to translate an article in French by an Italian engineer by the name of Luigi Menebrae about the difference engine. And fun fact, Luigi Menebraea went on to become the Prime Minister of Italy. She spent nine months on the translation. However, she didn't just translate the article. She did much, much more. She provided her own notes, which served as an appendix to the article, which ended up being three times longer than the article itself. In the notes, she basically set forth what would become computer science over a century later.
Starting point is 00:06:09 Babbage, while designing an incredible machine, never really saw the potential for what it meant beyond calculating numbers. Ada had the foresight to see exactly what this machine could potentially do. For starters, she saw the difference engine as the next logical step in the evolution of the Jacquard Loom. The Jacquard Loom was a steam-powered loom introduced in 1801, which could weave an enormous number of potential patterns, all based on punch cards. The holes in the punch cards would correspond to various hooks which would be raised or lowered, which would shape the resulting
Starting point is 00:06:41 pattern. Ada saw that the difference engine could do for mathematical patterns, what the jacard loom did for patterns and cloth. In one of the notes, she laid out a set of instructions for how the difference engine could calculate Bernoulli numbers. Bernoulli numbers were challenging to calculate, and her algorithm for how a computational machine could calculate these numbers is considered to be the first computer program. In it, she set out the idea of the machine repeating a series of instructions, which today is known as a loop in computer programming. But perhaps her biggest insight was that numbers didn't just have to represent numbers. If numbers could be used to represent things like letters and musical notes, then the
Starting point is 00:07:23 difference engine could be used for far more than simple mathematical calculations. She wrote, quote, the difference engine might act upon other things besides numbers, where objects found whose mutual fundamental relations could be expressed by those of the abstract science of operations, and which should also be susceptible to adaptations of the action of the operating notation and mechanism of the engine. Supposing, for instance, that the fundamental relations of pitch sounds in the science of harmony
Starting point is 00:07:52 and of musical composition were susceptible of such expression and adaptation, the engine might compose elaborate and scientific pieces of music of any degree of complexity or extent. End quote. Her insight also realized that the potential of the difference engine created an entirely different discipline beyond mathematics. She called it the science of operations, but today we would probably just call it computer science. She also wrote, quote, A new, a vast, a powerful language is developed for the future use of analysis, in which to wield its truth so that these may become more speedy and accurate practical application
Starting point is 00:08:30 for the purposes of mankind than the means hitherto in our possessions have rendered possible. Thus, not only the mental and material, but the theoretical and practical in the mathematical world are brought into more intimate and effective connection with each other. End quote. Ada was only 27 when the paper was published. As profound and insightful as Ada Love Lace's ideas were, they were actually forgotten for over 100 years. Babbage could never get the funding for his difference engine.
Starting point is 00:09:00 As brilliant as everyone thought it was, it was in some ways too advanced, and it was seen as too much of a risk to spend the money on. Without a machine, Ada's ideas and program didn't have anywhere to go. The theoretical power of the difference engine really didn't matter if there was no difference engine. Ada later outsmarted her own mathematical abilities and developed a severe gambling habit. She thought she could develop a system to beat the odds, and she never could. She lost thousands of pounds on horse racing.
Starting point is 00:09:31 She died of cancer in 1852 at the age of 36, the same age that her father died. Despite having never known her father, she developed an obsession with him her entire life, and when she died, she requested to be buried at his side, which was honored. The death of Ada Lovelace isn't the end of the story, however. While she was well before her time, eventually machines were developed. which could do the things that she envisioned. Her writings were rediscovered in the 1950s when digital computers were coming into existence.
Starting point is 00:10:02 Her notes were republished by the English scientist Baron Bertram Bowden in his 1955 book, Faster Than Thought, A Symposium on Digital Computing Machines. With the rediscovery of her work, a larger audience realized just how early she foresaw the power of computers. Ada Lovelace has been a character in many steampunk stories. There have been books and movies and plays about her.
Starting point is 00:10:24 The Ada programming language was named in her honor. The Nvidia Corporation named their graphic processor architecture after her. And there's a cryptocurrency also named after her as well. In 2015, on the 200th anniversary of her birth, symposiums were held around the world in her honor. And the second Tuesday of every October is Ada Lovelace Day. Ada Lovelace was so far ahead of her time that some actually consider her to be more of a computing profit than a pioneer. Despite having no idea of electricity, let alone the power. computational computation devices which it would allow. She alone saw the potential for what computers
Starting point is 00:10:59 could do an entire century before they were ever actually built. Everything Everywhere Daily is an Airwave Media podcast. The executive producer is Darcy Adams. The associate producers are Thor Thompson and Peter Bennett. Today's review comes from listener Curious Monkey over at Podcast Republic. They write, one of the most interesting podcasts out there. It touches fields as varied as history, biology and professional sports. Every day, I'll learn something on a new topic and can impress my friends with my new fun facts. Keep up the good work, Gary. Well, thanks, curious monkey.
Starting point is 00:11:34 To paraphrase Uncle Ben, with great knowledge, comes great responsibility. Make sure to use what you learn from this podcast for good instead of evil. Unless it involves winning bets with your friends, and you're completely free to do that. Remember, if you leave a review or send me a boostagram, you two can have it read on the show. And also, don't forget about the show's new Facebook group. search for Everything Everywhere daily on Facebook or click on the link in the show notes.

There aren't comments yet for this episode. Click on any sentence in the transcript to leave a comment.