Bomb: The Race to Build--and Steal--the World's Most Dangerous Weaponby Steve Sheinkin, Roy Roy Samuelson (Read by)
In December of 1938, a chemist in a German laboratory made a shocking discovery: When placed next to radioactive material, a Uranium atom split in two. That simple discovery launched a scientific race that spanned 3 continents. In Great Britain and the United States, Soviet spies worked their way into the scientific community; in Norway, a commando force slipped behind enemy lines to attack German heavy-water manufacturing; and deep in the desert, one brilliant group of scientists was hidden away at a remote site at Los Alamos. This is the story of the plotting, the risk-taking, the deceit, and genius that created the world's most formidable weapon. This is the story of the atomic bomb.
Bomb is a 2013 Newbery Honor, winner of the YALSA Award for Excellence in Nonfiction, Winner of the Robert F. Sibert Medal, and a National Book Awards finalist for Young People’s Literature.
“This superb and exciting work of nonfiction would be a fine tonic for any jaded adolescent who thinks history is "boring." It's also an excellent primer for adult readers who may have forgotten, or never learned, the remarkable story of how nuclear weaponry was first imagined, invented and deployed--and of how an international arms race began well before there was such a thing as an atomic bomb.” The Wall Street Journal
“A must-read…” Publishers Weekly, starred review
“A superb tale of an era and an effort that forever changed our world.” Kirkus Reviews, starred review
“[a] complicated thriller that intercuts action with the deftness of a Hollywood blockbuster.” Booklist
“...reads like an international spy thriller, and that's the beauty of it.” School Library Journal, starred review
“This is edge-of-the seat material that will resonate with YAs who clamor for true spy stories, and it will undoubtedly engross a cross-market audience of adults who dozed through the World War II unit in high school.” Bulletin of the Center of Children’s Books, starred review
(c) Copyright 2011. Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.
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Read an Excerpt
The Race to Build-and Steal-the World's Most Dangerous Weapon
By Steve Sheinkin
Roaring Brook PressCopyright © 2012 Steve Sheinkin
All rights reserved.
PART 1: THREE-WAY RACE
HARRY GOLD WAS RIGHT: This is a big story. It's the story of the creation — and theft — of the deadliest weapon ever invented. The scenes speed around the world, from secret labs to commando raids to street-corner spy meetings. But like most big stories, this one starts small. Let's pick up the action sixteen years before FBI agents cornered Harry Gold in Philadelphia. Let's start 3,000 miles to the west, in Berkeley, California, on a chilly night in February 1934.
On a hill high above town, a man and woman sat in a parked car. In the driver's seat was a very thin young physics professor named Robert Oppenheimer. Beside him sat his date, a graduate student named Melba Phillips. The two looked out at the view of San Francisco Bay.
It was a fine view, but Oppenheimer couldn't seem to stay focused on the date. He turned to Phillips and asked, "Are you comfortable?"
She said she was.
"Mind if I get out and walk for a few minutes?"
She didn't mind.
Oppenheimer got out and strolled into the darkness. Phillips wrapped a coat around her legs and waited. She waited a long time. At some point, she fell asleep.
She woke up in the middle of the night — the seat beside her was still empty. Worried, she stepped onto the road and waved down a passing police car.
"My escort went for a walk hours ago and he hasn't returned," she told the cop.
The police searched the park, but found nothing. They notified headquarters, and a wider search was begun. An officer drove to Oppenheimer's apartment to look for useful clues.
He found the professor in bed, sound asleep.
The cop shook Oppenheimer awake and demanded an explanation. Oppenheimer said he'd gotten out of the car to think about physics. "I just walked and walked," he said, "and I was home and I went to bed. I'm so sorry."
A reporter for the San Francisco Chronicle got hold of the story and wrote an article with the headline: "Forgetful Prof Parks Girl, Takes Self Home."
No one who knew Robert Oppenheimer was the least bit surprised.
* * *
He'd always been different. A girl who knew Robert as a child in New York City described him as "very frail, very pink-cheeked, very shy, and very brilliant."
Oppenheimer was a tougher critic. "A repulsively good little boy," he said of himself. "My life as a child did not prepare me for the fact that the world is full of cruel and bitter things."
He was constantly getting sick, so his nervous parents tried to protect him by keeping him inside. While other boys played in the street, Robert sat alone in his room studying languages, devouring books of literature and science, and filling notebooks with poetry. Around kids his age he was awkward and quiet, never knowing what to say unless he could bring the conversation around to books. Then he would let loose annoying bursts of learning.
"Ask me a question in Latin," he'd say, "and I'll answer you in Greek."
Hoping to toughen up their stick-skinny fourteen-year-old, Robert's parents sent him to a sports summer camp. But he was an awful athlete and simply refused to participate. Then the other campers found out he wrote home every day, and that he liked poetry and looking for minerals. That's when they started calling him "Cutie."
Robert never fought back. He never even responded. That made his tormentors even angrier.
One night, after dinner, Robert went for a walk. A group of boys waited for him in the woods. They grabbed him, dragged him to the icehouse, and tossed him on the rough wood floor. They ripped off his shirt and pants, dipped a brush in green paint, and slapped the dripping bristles against his bony body.
Robert never said a word about the attack to camp counselors. "I don't know how Robert stuck out those remaining weeks," his only friend at camp later said. "Not many boys would have — or could have — but Robert did. It must have been hell for him."
Science saved him. Robert dove deep into chemistry and physics in high school, graduated from Harvard University in 1925, then earned advanced degrees at top universities in Britain and Germany. Even in classes with some of the brightest students in the world, "Oppie," as friends called him, never lost his know-it-all style. He interrupted physics lectures with his own theories, sometimes charging to the chalkboard, grabbing the chalk and declaring. "This can be done much better in the following manner." Classmates got so annoyed they actually signed a petition asking him to allow others to speak in class. After that, Oppenheimer calmed down. A little bit. "The trouble," a friend said, "is that Oppie is so quick on the trigger intellectually, that he puts the other guy at a disadvantage."
He'd lucked into a thrilling time in theoretical physics. Physicists were just beginning to figure out what atoms look like, and how the tiny particles inside them move and affect each other. Theoretical physicists were the explorers of their day, using imagination and mind-bending math to dig deeper and deeper into the surprising inner workings of atoms. Oppenheimer knew he'd found his calling.
When he returned to the States, schools all over the country tried to hire him. He picked the University of California, in Berkeley, where he quickly built the country's best theoretical physics program. Students who came to study with Oppenheimer quickly realized they were in for a wild ride. "When you took a question to him," one student remembered, "he would spend hours — until midnight perhaps — exploring every angle with you."
"He generally would answer patiently," another student agreed, "unless the question was manifestly stupid, in which event his response was likely to be quite caustic."
While sitting in on other professors' lectures, Oppenheimer was known to squirm impatiently. "Oh, come now!" he'd call out. "We all know that. Let's get on with it!"
Oppenheimer's own lectures, according to a student named Edward Gerjuoy, were lightning bursts of ideas, theories, and math on the blackboard. "He spoke quite rapidly, and puffed equally rapidly," Gerjuoy said. "When one cigarette burned down to a fragment he no longer could hold, he lit another." Oppenheimer paced as he lectured, his wiry black hair sticking straight up, his large blue eyes flashing, as he furiously wrote, erased, wrote more, talked, puffed, and bobbed in and out of a cloud of white smoke.
During one lecture, he told students to think about a formula he'd written. There were dozens scrawled all over the board, and a student cut in to ask which formula he was talking about.
"Not that one," Oppenheimer said, pointing to the blackboard, "the one underneath."
There was no formula below that one, the student pointed out.
"Not below, underneath," snapped Oppenheimer. "I have written over it."
As one of Oppenheimer's students put it: "Everyone sort of regarded him, very affectionately, as being sort of nuts."
* * *
"I need physics more than friends," Oppenheimer once told his younger brother. Lost in his studies, Oppenheimer paid little attention to the outside world. He didn't hear about the stock market crash that triggered the Great Depression until six months after it happened. He first voted in a presidential election in 1936, at the age of thirty-two.
"Beginning in late 1936, my interests began to change," he later said. There were a few reasons.
For one thing, the country's ongoing economic troubles began to hit home. "I saw what the Depression was doing to my students. Often they could get no jobs," he said. "And through them, I began to understand how deeply political and economic events could affect men's lives. I began to feel the need to participate more fully in the life of the community." Oppenheimer started going to political meetings and discussion groups. He began giving money to support causes like labor unions and striking farm workers.
But it wasn't only events in the United States that caught Oppenheimer's attention — he was also alarmed by the violent rise of Adolf Hitler and his Nazi Party in Germany. Hitler took over as chancellor of Germany in 1933 and started arresting political opponents and tossing them into concentration camps. With complete control of the country in his hands, Hitler began persecuting German Jews, stripping them of their legal rights, kicking them out of universities and government jobs. Oppenheimer, who was Jewish, still had family in Germany, as well as Jewish friends from his student days. When he heard that Hitler was harassing Jewish physicists, Oppenheimer dedicated a portion of his salary to help them escape Nazi Germany.
At the same time, the German dictator built up a huge military and started hacking out what he called a "Greater Germany," a massive European empire that Hitler insisted rightfully belonged to Germans. He annexed neighboring Austria in 1938, then demanded a huge region of Czechoslovakia. Britain and France were strong enough to stand in Hitler's way — but they caved in to his threats, hoping to preserve peace in Europe.
"This is my last territorial demand in Europe," Hitler promised.
A few months later, he sent German troops into the rest of Czechoslovakia. Just twenty years after the end of World War I, it looked like a second world war was about to explode.
Oppenheimer followed these terrifying events from his home in California, burning with what he described as "a continuing, smoldering fury" toward Adolf Hitler.
But how was a theoretical physicist supposed to save the world?
THE U BUSINESS
ACTUALLY, THEORETICAL PHYSICISTS were about to become more powerful than Oppenheimer had ever imagined.
In late December 1938, in the German capital of Berlin, a chemist named Otto Hahn set up a new experiment in his lab. By the late 1930s, scientists like Hahn understood that everything in the universe is made up of incredibly tiny particles called atoms. They knew that atoms themselves are composed of even smaller particles. Atoms have a central core, or nucleus, made up of protons and neutrons packed tightly together. Surrounding the nucleus are electrons.
Scientists also knew that some atoms are radioactive. That is, their nucleus is naturally unstable — particles break away from the nucleus and shoot out at high speeds. This was useful to experimenters like Hahn, because they could use radioactive elements as tiny cannons.
Hahn began his experiment with a piece of silver-colored metal called uranium. He placed the uranium beside a radioactive element. He knew that neutrons would speed out of the radioactive material. He knew that some of these tiny particles would hit uranium atoms. The big question was: What happens when a speeding neutron crashes into a uranium atom?
The answer was shocking. Hahn was sure he'd made a mistake.
As expected, some of the speeding neutrons hit uranium atoms. What staggered Hahn was that the force of the collision seemed to be causing the uranium atoms to split in two. According to everything scientists knew in 1938, this was impossible.
* * *
At once excited and disturbed, Hahn needed help. He turned to his former partner, Lise Meitner, a Jewish physicist who'd been forced out of Germany by Hitler. Hahn wrote to Meitner at her new office in Sweden, describing the strange results of his experiment.
"Perhaps you can suggest some fantastic explanation," Hahn said of the splitting uranium. "We understand that it really can't break up."
Meitner responded immediately, agreeing that the news was amazing, but adding: "We have experienced so many surprises in nuclear physics that one cannot say without hesitation about anything: 'it's impossible.'"
A few days later Meitner's nephew Otto Frisch, also a physicist, came to Sweden for a visit. Over breakfast, she showed him Hahn's letter.
"I don't believe it," he said. "There's some mistake."
The two went outside to discuss the mystery. "We walked up and down in the snow, I on skis and she on foot," Frisch recalled.
They talked over an idea proposed by the great Danish physicist Niels Bohr. Bohr had recently suggested that the nucleus of an atom might act like a "wobbly droplet" of liquid. If that were true, they asked each other, what would happen if a speeding neutron hit the nucleus of a uranium atom? Could the force of the collision cause the uranium nucleus to stretch and stretch — just like a liquid drop — until it split?
They brushed the snow off a fallen log and sat. Meitner pulled out a scrap of paper and pencil, and Frisch sketched a diagram of a circle stretching into a long oval shape, and finally breaking in two.
"Yes," said Meitner. "That is what I mean."
They agreed: this must be what happened to the uranium atoms in Hahn's lab. Meitner took the pencil and paper and began working out the math.
"If you really do form two such fragments," she said, "they would be pushed apart with great energy."
An atom splitting was incredible enough. But what made this a world-changing discovery was that if atoms really could be split, they would release energy as they broke in two. How much energy? Just enough, Meitner and Frisch calculated, to make a grain of sand jump. That doesn't sound like much — but keep in mind how tiny atoms are. With 238 protons and neutrons, uranium is the largest atom in nature. Still, each atom is incredibly small. A single ounce of uranium has about 100,000,000,000,000,000,000 atoms.
What if you had a twenty-pound lump of uranium? A fifty-pound lump? What if you were able to get all those atoms to split and release energy at the same moment? You'd have by far the most powerful bomb ever built.
"I feel as if I had caught an elephant by its tail, without meaning to," Frisch wrote to his mother. "And now I don't know what to do with it."
* * *
News of the discovery spread quickly within the small world of theoretical physicists. Otto Frisch rushed to Copenhagen, Denmark, catching up with Niels Bohr just as Bohr was boarding a ship for America. Frisch began telling Bohr that uranium atoms could split in two and was halfway through his explanation when Bohr slapped himself on the forehead.
"Oh, what idiots we have all been!" shouted Bohr. "Oh, but it is wonderful. This is just as it must be!"
Bohr was so excited, he ran home to get a blackboard. He set it up in his cabin on the ship and spent most of the two-week Atlantic crossing exploring this new discovery. By the time he reached New York City in January 1939, he was convinced — uranium atoms really could split in two. He took the news to a physics conference in Washington, D.C., where it leaped from one physicist to another.
"Bohr has just come in," one scientist announced. "He has gone crazy. He says a neutron can split uranium!"
A newspaper reporter attending the conference described the news in a short article, which was picked up by papers across the country. The next morning a young physicist named Luis Alvarez was sitting in a barber shop in Berkeley, California. While the barber snipped his hair, Alvarez grabbed the San Francisco Chronicle from a pile of papers beside the chair. "In the second section," he remembered, "buried away some place, was an announcement that some German chemists had found that the uranium atom split into two pieces."
Alvarez put down the paper.
"I got right out of that barber chair and ran as fast as I could." He sprinted to the campus of the University of California, where he taught, and ran from lab to lab with the news, soon bumping into one his fellow professors, Robert Oppenheimer. Alvarez told Oppenheimer that uranium atoms split in two — scientists were calling it fission.
"That's impossible," Oppenheimer said.
Alvarez explained what little he'd read about fission. Oppenheimer quickly agreed it must be true. "It was amazing to see how rapidly his mind worked," said Alvarez.
"The U business is unbelievable," Oppenheimer told a friend a few days later — U is the chemical symbol for uranium. Like all the scientists involved in the discovery, Oppenheimer was fired up by new ideas in physics, deeper glimpses into the weird inner world of atoms. The thought of making weapons of mass destruction had never occurred to him.
But now, suddenly, he couldn't shake it from his mind: fission might make it possible to build a whole new type of explosive.
"Within perhaps a week," recalled a student, "there was on the blackboard in Robert Oppenheimer's office a drawing — a very bad, an execrable drawing — of a bomb."
* * *
Robert Oppenheimer realized something else right away. If it was obvious to him that an atomic bomb might be possible, it was also obvious to everyone else in the global community of top physicists. This would not usually be a problem. In normal times, scientists from around the world freely shared new ideas and theories. But in 1939, normal times were rapidly coming to an end.
Excerpted from Bomb by Steve Sheinkin. Copyright © 2012 Steve Sheinkin. Excerpted by permission of Roaring Brook Press.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
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Meet the Author
Steve Sheinkin is the award-winning author of several fascinating books on American history, most recently The Notorious Benedict Arnold, which won the YALSA Award for Excellence in Nonfiction for Young Adults, the Boston Globe/Horn Book Award for nonfiction, and received three starred reviews. He lives in Saratoga Springs, NY.
Most Helpful Customer Reviews
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very good and never dull
I'm a chemist. I learned things that I did not know about the building of the bomb. The book kept me engaged. I'm sure that anyone of any age would enjoy reading this book. For an adult it's a fast read.
Quick read, but fascinating from cover to cover. Remains factual without getting too overworked or boring. I am very glad to have read it.
One of the best Young Adult non-fiction books I've ever read. This book reads like a thriller adventure novel and what's astounding is it's true!
I am WWII buff to so good. Wish it was longer
I purchased this ebook for my husband who is a WWII buff. He enjoyed it very much. Although I didn't read it, my husband told me everything anyway. He gives it 4 stars.
The author explains a very complicated subject (the creation of the atomic bomb and our relationship with Russia during WWII) in a very understandable way. This book should be required reading in school.
In Bomb: The Race to Build and Steal the World’s most Dangerous Weapon, by Steve Sheinkin, Robert Oppenheimer and Klaus Fuchs. Robert Oppenheimer is a flail and powerless man who used to get tormented when he was young do to his lack of interest in sports and other things normal boys his age liked. “Hoping to toughen him up their stick-skinny fourteen-year-old, Robert’s parents sent him to a sports summer camp. But he was an awful athlete and simply refused to participate.Then the other campers found out he wrote home every day, and that he liked poetry and looking for minerals. That’s when they started calling him “Cutie”...Robert never fought back. He never even responded. This made his tormentors even angrier”(Sheinkin 9). Although he was very weak, Robert was an excellent physicist and contributed greatly to the research of the atomic bomb. Klaus Fuchs was a German born physicist. He was likable, but a little difficult to get to know by other scientists. “A gifted physicist, Fuchs was well liked by his fellow scientists, though they found him difficult to get to know. He was always inside, hunched over his desk, he spoke very little, and never about politics”(Sheinkin 61). I really liked how the author managed to make the book factual, and not boring at the same time. One plot in the book that was very important was when a German scientist named Otto Hahn discovered fission in uranium atoms, which led to the race to build the atomic bomb. Another important plot in the book was when the atomic bomb project was moved into into Los Alamos, New Mexico. This location is where Oppenheimer and other scientists did research on the atomic bomb. One last important plot in the book was when they dropped the Little Boy (code name of the atomic bomb) on the Japanese city of Hiroshima. The explosion killed 40,000 people and was one of the first ever atomic bombs to be used in history. I recommend this book to people who enjoy history because it contains many events that took place during World War II.
Does someone need me here? Is this Finrir? Whu up dude!! If this is you bruh
Well written, reveals all aspects of the making of the bomb!
Not since James Michener have I enjoyed a historic novel more. My only comment is that I would have preferred that it be one thousand pages. I was most impressed with the volume of recently declassified documents that Steve cited for his stories. Steve also introduced his characters out the personal papers and memoirs of those characters, excellent. Jeff Bailey, author of The Defect.
First off I loved this book. This is the first book I have read about World War ll and I have been reading more about the topic.
So flippin awesome.
What did you want us for?
As much as I hated this author last year for his book that was somehow chosen to be one of the renowned in OBOB, this book seems a lot better. I haven't actually read it, but all of the samples seem pretty durned good.
I read Bomb along with my child for a school nonfiction book report. I highly recommend to middle school and adult readers.