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How atomic bombs work and why Manhattan Project scientists designed two types of bombs during WWII

Aug 10, 2023, 00:42 IST
Business Insider
Cillian Murphy as J. Robert Oppenheimer in "Oppenheimer."Universal Pictures
  • Atomic bombs work via a process called nuclear fission that involves atom splitting.
  • Shortly after scientists discovered nuclear fission, the possibility of a bomb was quickly realized.
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With its depiction of the first atomic bomb explosion, "Oppenheimer" highlights the massive destructive power of these early nuclear weapons.

While you might want to brush up on your physics before seeing the film — Cillian Murphy certainly did to play the role of J. Robert Oppenheimer — here's an explainer of how the first atomic bombs worked.

Splitting the atom

Atomic bombs work by splitting atoms via nuclear fission. It's called "splitting" because, essentially, you're taking one atom and dividing, or splitting, it into two.

Scene from the film "Oppenheimer," where Cillian Murphy stands next to the first ever atomic bomb to detonate.Universal

The center of atoms consists of tiny particles called protons and neutrons.

Fission, which was discovered in 1938, occurs when a neutron hits the atomic nucleus. It splits, producing two lighter elements and, more importantly, a few neutrons and some energy — both of which are key to atomic weapons.

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Shortly after scientists first discovered they'd split the atom, the quantum-physics community — including Albert Einstein and Oppenheimer himself — figured out that it could be used to produce an enormous bomb.

If fission starts with a certain minimum amount — known as critical mass — of radioactive material such as uranium and plutonium, it causes a chain reaction, Zaijing Sun, a nuclear physicist at the University of Nevada, Las Vegas, told Insider.

When enough radioactive material undergoes nuclear fission it generates a train reaction of splitting atoms that can generate an enormous explosion.Screen grab/Amanda Macias/Business Insider

In the nuclear chain reaction, each neutron released by fission goes on to split another atom, producing more neutrons that split more atoms at a faster rate. As more atoms split, the extra energy left over builds and builds — almost instantaneously producing the explosive power of the atom bomb, Sun said.

In a single atomic-bomb explosion, billions of atoms split within a millionth of a second.

Einstein's famous equation explains how atom bombs work

The first atomic bomb ever detonated, known as the Trinity test, used about 13 pounds, or 6 kilograms, of plutonium and generated an explosion equivalent to that of 20,000 tons of TNT.

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The mushroom cloud of the Trinity nuclear test rises over the New Mexico desert.National Security Research Center

The atomic bomb dropped over Hiroshima contained about 140 pounds of uranium and produced a blast equivalent to 15,000 tons of TNT.

But the bombs weren't totally efficient in their use of fuel — just a small part of the nuclear material actually underwent fission.

In fact, only about half a gram of the total uranium in the bomb dropped over Hiroshima was converted to energy — creating the entire force of the explosion.

But how is such a relatively small amount of matter capable of producing so much power?

It has to do with Einstein's famous equation: E = mc2, which means "mass and energy are essentially the same thing, so any mass can turn into energy," Sun said.

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When a neutron hits a uranium-235 atom, the combined mass of the two new, lighter elements and the neutrons is less than the original atom of uranium-235 — not by much, but it is measurable.

That tiny amount of missing mass is what's transformed into pure energy, Sun said. It's that energy that is capable of nearly destroying an entire city.

Later, scientists developed an even more powerful weapon. Called a hydrogen bomb, it uses both nuclear fission and nuclear fusionthe binding of atoms — to produce a weapon 1,000 times more powerful than the atomic bomb dropped over Hiroshima in 1945.

Building the bomb

During World War II, scientists were well aware of the potential of using nuclear fission to create a weapon.

Amid fears that Germany was working to make a bomb, Oppenheimer was appointed director of the Los Alamos National Laboratory in New Mexico — part of the United States' top-secret Manhattan Project tasked with building the atom bomb.

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J. Robert Oppenheimer writes on a blackboard.Corbis/Getty Images

The Manhattan Project took about three years to complete its mission — employing over 130,000 people at its peak and costing $2.2 billion dollars by the end of the war, which is about $38 billion in 2023 when adjusted for inflation.

The scientists designed and completed two different types of atomic bombs because they weren't sure which method would work. One was powered by uranium, and the other by plutonium.

Uranium has a number of different isotopes — or the same chemical element with a different number of neutrons. Naturally occurring uranium is composed mostly of the U-238 isotope and contains small amounts of the U-235 isotope. But an atomic bomb requires high concentrations of U-235 because it's the form that readily undergoes fission.

A lab at Oak Ridge, Tennessee, created this "enriched" uranium that contained a high concentration of U-235 to serve as fuel for the bomb — nicknamed "Little Boy" — that was dropped over Hiroshima.

The Little Boy featured a gun-type detonation method. The bomb contained two separate cores of uranium and used a conventional explosive to shoot one core into the other. When the two cores of uranium hit each other, critical mass was reached, causing an atomic explosion.

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While uranium was mined and enriched for use in a bomb, plutonium had to be made from scratch.

Plutonium is produced by bombarding U-238 with neutrons. The U-238 atoms absorb a neutron, which sparks a series of nuclear changes that transform it into plutonium.

A plutonium core, aka "demon core," surrounded by bricks that ultimately killed 2 physicists at the Los Alamos lab in New Mexico.Los Alamos National Laboratory

Nuclear reactors in Hanford, Washington, produced plutonium and sent it to Los Alamos for assembly of the "Fat Man" bomb that the US dropped over Nagasaki.

The Fat Man was an implosion-type bomb featuring a core of plutonium surrounded by explosives. When detonated, the force of the explosives crushed the plutonium together until it became dense enough to reach critical mass.

Since scientists working on the Manhattan Project weren't quite sure if the plutonium bomb's implosion method would work, they decided to test one before it was used in the war.

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So on July 16, 1945, at 5:29 a.m., in the New Mexico desert southeast of Socorro, the Trinity test detonated a plutonium bomb called "Gadget" — the world's first nuclear bomb — and ushered in the atomic age.

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