Authors: Erik Larson
It did not fit.
Upon examination it proved to be another left leg, causing speculation that a medical student had tossed it into the river as a prank. The case became known as the Whitehall Mystery and was never solved. When the police moved into their new headquarters, one of the departments they left behind at their previous address in Great Scotland Yard was their lost and found division, with 14,212 orphaned umbrellas.
Overall there was a lightening of the British spirit. If any one individual symbolized this change, it was the Prince of Wales, Albert Edward, heir to the throne. In the spring of 1897 he was fifty-six years old and notorious for having an empire-sized appetite for fun, food, and women, the latter despite his thirty-four-year marriage to his wife, Alexandra. That the prince had had sexual dalliances with other women was considered a fact but not a topic for public conversation. Nor was his weight. He drank modestly but adored food. He loved pigeon pie and turtle soup and deer pudding and grouse, partridge, woodcock, and quail, and when the season allowed he consumed mounds of grilled oysters. No one called him fat to his face, for it hurt his feelings, but in private his friends referred to him with affection as “Tum Tum.” When not eating, he was smoking. Before breakfast the prince allowed himself a single small cigar and two cigarettes. Through the remainder of a typical day he smoked twenty cigarettes and a dozen more cigars the diameter of gun barrels.
The prince hated being alone and loved parties and clubs and, especially, going out with friends to the music halls of London. Here he had much company. By the late 1890s music halls with their variety acts had become the most popular form of entertainment in Britain and were fast shedding the seedy image they had acquired earlier in the Victorian era. The number of variety theaters within London multiplied rapidly until the city had five hundred, including such familiar names as Tivoli, Empire, Pavilion, Alhambra, and Gaiety. On any given night a typical variety bill would feature dozens of short acts, called “turns,” including comedy, acrobatics, ventriloquism, mind reading, and acts in which men pretended to be women, and women to be men.
Overseeing this changing empire was Queen Victoria. In 1896 she celebrated her seventy-seventh birthday. She had reigned for nearly sixty years, during which the empire had grown to be the biggest and most powerful ever known. Meanwhile she herself had grown frail. For over three decades she had lived in a state of perpetual mourning over the death in 1861 of her husband. Ever since then, the Widow of Windsor had worn only black satin. She kept a cast of his hand by her bedside, so that she could hold it when she needed comfort. Now her eyesight was failing, and she was plagued by periods of profound sleepiness. She had ruled so long and in such a benign, maternal way that it was hard to think forward to a future in which she did not exist. A man born in the year of her accession, 1837, would by 1897 be on the verge of old age. Yet queen or not, the laws of nature applied. Victoria would die and, given her health and age, probably soon.
As the end of the century approached, a question lay in the hearts of Britons throughout the empire’s eleven million square miles: Without Victoria, what would the world be like?
What would happen then?
T
HE
S
ECRET
B
OX
I
T IS TEMPTING TO IMAGINE
the arrival of Marconi and his mother in London as something from a Dickens novel—the two entering a cold and alien realm, overpowered by the immensity and smoke and noise of the city—but in fact they stepped directly into the warm embrace of the Jameson family and into the center of a skein of blood and business connections that touched a good portion of the British Empire. They were met at Victoria Station by one of Marconi’s cousins, Henry Jameson Davis, and were drawn immediately into the silk and flannel world of London’s upper class, with its high teas, derby days, and Sunday carriage rides through Hyde Park. This inventor had not yet starved, except by choice and obsession, and would not starve now.
The delay caused by the destruction of his equipment amplified his ever-present fear that some other inventor with an apparatus as good as his own or better might suddenly appear. With Jameson Davis’s help, Marconi acquired materials for his apparatus and set to work on reconstruction. He demonstrated the finished product to his cousin and to others in the Jameson diaspora. The effect was as startling as if a dead relative’s voice had just emerged from the mouth of a medium. Here was a means of communicating not just across space but through walls.
They talked of what to do next. A patent was necessary, of course. And a sponsor would help—perhaps the British Post Office, which controlled all telegraphy in Britain.
Here the Jameson network proved invaluable. Through an intermediary, Jameson Davis arranged to have Marconi meet with William Preece, chief electrician of the British Post Office. By dint of his position, Preece, two years from the post office’s retirement age of sixty-five, was the most prominent man in British telegraphy and one of the empire’s best-known lecturers. He was well liked by fellow engineers and employees but was loathed by Oliver Lodge and his allies, who together comprised a cadre of theoretical physicists known as “Maxwellians” for their reverence for Clerk Maxwell and his use of mathematics to posit the existence of electromagnetic waves. To the Maxwellians, Preece was the king of “practicians.” He and Lodge had more than once come to metaphoric blows over whether theory or everyday experience had more power to uncover scientific truth.
Marconi knew of Preece and knew that he had attempted with some success to signal across short distances using induction, the phenomenon whereby one circuit can generate a sympathetic current in another. Preece had never heard of Marconi but with characteristic generosity agreed to see him.
Soon afterward Marconi arrived at post office headquarters, three large buildings on St. Martin’s le Grand, just north of St. Paul’s Cathedral. One building, named General Post Office East, occupied the east side of the street and managed the processing and delivery of 2,186,800,000 letters a year throughout the United Kingdom, 54.3 letters per resident, with deliveries in London up to a dozen times a day. Across the street stood General Post Office West, which housed the Telegraph Department, Preece’s bailiwick, where anyone with a proper introduction from “a banker or other well-known citizen” could visit the Telegraph Instrument Galleries and see the heart of Britain’s telegraphic empire. Here in a room measuring 27,000 square feet stood five hundred telegraphic instruments and their operators, the largest telegraph station in the world. Four large steam engines powered pneumatic tubes that allowed the immediate dispatch of telegrams from the galleries direct to offices throughout London’s financial center, the City, and its neighboring district, the Strand, named for the boulevard that fronted the Thames.
Marconi carried two large bags of equipment. He set out his induction coil, spark generator, coherer, and other equipment, but apparently he had not brought with him a telegraph key. One of Preece’s assistants, P. R. Mullis, found one and together he and Marconi set up sending and receiving circuits on two tables. At this point Preece pulled out his watch and said quietly, “It has gone twelve now. Take this young man over to the refreshment bar and see that he gets a good dinner on my account, and come back here again by two o’clock.”
Mullis and Marconi had lunch and sipped tea, then strolled along Farringdon Road, where Marconi took particular interest in the wheelbarrows of street traders “with their loads of junk, books, and fruit.” By Mullis’s description, this lunch was one of relaxation and ease. Marconi would have described it differently. Ever anxious that someone would beat him to his goal, he now found himself dining and walking for two hours as his apparatus lay in Preece’s office open to inspection by anyone.
At two they returned and rejoined Preece. Marconi was young, thin, and of modest height, but his manner was compelling. He spoke perfect English and dressed well, in a good suit with razor creases. His explanations of the various components of his apparatus were lucid. He did not smile. Anyone happening to glance at him would have gotten the impression that he was much older, though on closer inspection would have noted the smooth skin and clear blue eyes.
Marconi adjusted his circuits. He pressed the telegraph key. A bell rang on the opposite table. He tapped the coherer with his finger and pressed the key again. Again the bell rang.
Mullis looked at his boss. “I knew by the Chief’s quiet manner and smile that something unusual had been effected.”
P
REECE LIKED
M
ARCONI.
He recognized that Marconi’s coherer was a modification of devices already demonstrated by others, including Lodge, but he saw too that Marconi had put them together in an elegant way, and if the man—this boy—were to be believed, he had succeeded at something that Lodge and the Maxwellians considered impossible, the sending of legible signals not just over long distances but to a point out of optical range.
Preece and Marconi were kindred spirits. Both understood the power of work and everyday practice to reveal truths—useful, practical truths—about the forces that drove the world. In the battle of practice versus theory, Marconi held the promise of becoming Preece’s secret weapon. Marconi was an inventor, an amateur, hardly even an adult, yet he had bested some of the great scientific minds of the age. Lodge had said that half a mile was probably the farthest that electromagnetic waves could travel, yet Marconi claimed to have sent signals more than twice as far and now, in Preece’s office, forecast transmissions to much greater distances with a confidence that Preece found convincing.
Preece recognized that his own efforts to use induction to produce a crude form of wireless communication had reached their practical limits. Most recently he had attempted to establish communication with a lightship guarding the notoriously deadly Goodwin Sands off the English coast. He had strung wire around the hull of the ship and laid a spiral of wire on the sea floor large enough that no matter where the wind, tide, and waves moved the ship, it always was positioned over part of the spiral. By interrupting the current in the spiral, he hoped to induce matching interruptions in the coil on the ship, and in so doing send Morse messages back and forth. The experiment failed. Later Preece would state that Marconi “came to me at a very fortunate time for myself, for I was just then smarting under the disappointment of having made a failure in communicating with the East Goodwin lightship.”
Two years from retirement, Preece understood that his discovery of Marconi might be the last shining thing that history would remember about his long tenure at the British Post Office. Far better to exit as the man who helped introduce the world to a revolution in communication than as an engineer whose own attempts at telegraphy without wires had failed.
The day came to an end when Preece’s coachman appeared and Preece set out in his brougham for his home in Wimbledon, the beat of hooves keeping time in the cool spring air.
I
N A LETTER TO HIS FATHER
Marconi wrote about the meeting and disclosed a bit of news that must have amazed the elder Marconi, who only a year earlier had been so skeptical of his son’s electrical adventures. “He promised me that, if I wanted to perform experiments, then he would allow me the use of any necessary building belonging to the telegraphic administration in any city or town in the whole of the
United Kingdom
, as well as ensuring the help (at no cost, of course) of any personnel employed by the administration mentioned above that I might need. He added that he has ships on which I could install and try my equipment in case I wanted to perform an experiment between vessels at sea.”
Preece assigned engineers from his staff to assist Marconi and recruited instrument-builders in the post office mechanics’ shop to modify Marconi’s equipment to make it more robust. Immediately Preece began arranging demonstrations for other government officials.
Soon Marconi found himself on the roof of the post office, sending signals from one rooftop to another, the spark of his transmitter snapping so loudly as to be audible on the street below. In July 1896 he achieved a distance of three hundred yards, well short of what he had done at the Villa Griffone but still impressive to Preece and his engineers.
Preece arranged the most important demonstration yet, one for observers from the army and navy, to take place on the military proving ground Salisbury Plain, near Stonehenge. By day’s end he managed to transmit legible signals to a distance of one mile and three quarters.
The success of the demonstration raised Marconi onto another plane. The War Office wanted more demonstrations; Preece, nearly as delighted as Marconi, reiterated his pledge to provide as much assistance and equipment as Marconi needed. Until this point the intensity with which Marconi pursued his idea had been stoked only from within; now, suddenly, there were expectations from the outside.
“La calma della mia vita ebbe allora fine,”
he said—The calm of my life ended then.
M
ARCONI REALIZED IT WAS NOW
crucial to file for a patent for his apparatus. The number of people who had seen his invention was multiplying, and his fear that another inventor might come forward increased in step. He filed a “provisional specification” that established the date of filing and asserted that he was first to achieve the things he claimed. He would have to submit a more complete filing later.