This was one of the first things I was taught as a seaman apprentice in the U.S. Coast Guard (motto: "Semper Paratus," which means "Why does the U.S. Navy get all that money and we get bupkis?")
Amazingly, Morse code was still being taught to everyone 125 years after its invention. Will we still be using C++ in the year 2125? I don't think so.
Not only that -- it's digital! We can make the case that it was the first universally used computer language. And it was developed by an artist -- not just a hack, but a world-class artist: Samuel Morse.
Morse code was used way into the 1890s and beyond for radio communications. David Sarnoff, later CEO of the Radio Corporation of America, was a young telegraph operator who received the first SOS from the Titanic in 1912. Thomas Edison was a crackerjack telegraph operator before he invented the light bulb and everything else.
Morse spent the first 20 years of his life painting. He hung with James Fennimore Cooper and other literati in Paris and painted some very important pictures, one of which hung in the Hall of Congress. Back in those days, educated men dabbled in science and did experiments, truly Amateur Night. But Morse was different.
He built an entire industry, solved some of the world's most technical problems, built the language ... and eventually quit painting. Some say the impetus was when a message that his wife was deathly ill was delivered too late for him to be at her bedside when she passed away. From that episode came an inkling that there needed to be a method of rapid long-distance communication.
In the early days of telegraphy, it was possible to send a message, but only if you used 26 wires -- one for each letter. And then the message could go only about 40 feet. Morse figured out how to send a message on one wire by basically turning the electricity on and off, which is kind of how computers work.
His first idea was just to transmit numbers; every word would have a number code, which could be looked up. He soon had a better idea: Give each letter a code that an operator could translate. Morse also figured out how to use repeaters or relays to regenerate the signal.
By 1844, he ran an experimental 38-mile link along a railroad right of way and transmitted from Washington to Baltimore the message: "What hath God wrought," which is as famous as "Watson, come here, I need you" and "One small step for man, one giant leap for mankind."
Up to that point, the way information moved was to move atoms: ships, horses, people. It was labor-intensive, slow and costly. Morse figured out how to move electrons ... and changed the world. By 1851 Western Union was formed; by 1861 it was possible to send a message from New York to California. And with that innovation, the Pony Express was DOA.
Five years later, undersea cables were laid to Europe, and the world was for the first time instantly connected.
That relay product was cute. It was a spring-loaded switch that an electromagnet could open and close. It became a building block for computers 100 years later. President Obama has the original patent application and model for Morse's telegraph on a shelf in the Oval Office. He told author Michael Lewis: "This is the start of the Internet right here."
For the next 30 years, telegraph wires went everywhere, but this mode of communication was still partially electrons and partially atoms, as delivery boys still had to take the message the last mile from the telegraph office to your home.
But by 1875, a Canadian named Alexander Graham Bell was working on something called the harmonic telegraph, which allegedly could send messages on different pitches or notes down telegraph wires.
More on that to come in the fourth part of our series.
Three technologies are vying to upend legacy data center networks. Which one will you back? Also in the new, all-digital Welcome To The Revolution(s) issue of Network Computing: Startups are bringing fine-grained I/O quality of service to solid-state arrays. (Free with registration.)