Clearly there was a large cost both in money and resources. Working on both very likely slowed down the production of the first nuclear bomb.

4 Answers 4


To simply say that they wanted to try out different types is to miss the point that weapons-grade uranium and plutonium have fundamentally different production methods and lend themselves to very different weapon designs.

Uranium bombs require a very high percentage of the isotope U-235, which is only present in miniscule quantities in natural uranium. Separating these isotopes is a difficult and time-consuming task, especially with the vastly less efficient methods being used during the Manhattan Project. The chemical properties of the two isotopes are nearly identical, with the only difference being that U-235 is ~2% less dense, thus necessitating the highly complex and expensive process of gaseous diffusion, centrifuges being used in later periods. Plutonium, on the other hand, can be produced with relative ease in a reactor, and is thus available in greater quantity.

On to weapons design. Little Boy, the first uranium bomb, was a gun-type weapon, meaning it simply used an explosive to fire two sub-critical masses of uranium together, forming a critical mass that would then detonate. This was a (relatively) simple, robust design that was the first theorized way to create a nuclear weapon. Fat Man, the plutonium bomb, used an implosion design, which involved using very high explosives around a spherical plutonium core, which, when detonated simultaneously, would compress it into a critical mass. This required exacting tolerances in the timing and force of the explosions, or else the uneven shape of the precritical mass could react in such a way that the plutonium core was blown apart before it could reach criticality (incidentally, this is basically why a gun-type plutonium weapon wouldn't work).

So we have two weapon designs- one has been in development for a longer time, is simpler and theoretically more reliable, but requires a difficult-to-obtain substance. The other is newer and of uncertain effectiveness, but if functional, could be produced in much greater quantity. It should be noted that the Trinity test was a plutonium implosion bomb, and no gun-type weapon was ever tested before the atomic bombings, for the twin reasons that it was deemed unnecessary and that they simply didn't have enough uranium. It came down to a choice between having a tiny number of reliable bombs or many more that were of uncertain quality (at least before the first test), and building both meant that all outcomes were covered.

  • At what point was this know to the people working on it? Commented Aug 21, 2015 at 16:00
  • @IanR Sorry, could you be more specific?
    – Patrick N
    Commented Aug 21, 2015 at 16:02
  • At the time that the work on the uranium bombs started was it know how much easier it was to get plutonium? Commented Aug 21, 2015 at 16:11
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    @PieterG To be precise, the initial conception was for a gun-type plutonium bomb, which would have been the best of both worlds, but it was only later that they realized that due to the high fissile rate of the plutonium they were producing, there was a significant chance of a small explosion happening as the two masses were coming into contact, destroying the weapon before criticality could be achieved. After this discovery, they began to work on the two designs separately.
    – Patrick N
    Commented Aug 21, 2015 at 16:52
  • 2
    A gun-type plutonium bomb will work just fine with cyclotron-produced plutonium (see: Thin Man), but reactor-produced plutonium has higher concentrations of Pu-240, which will cause a pre-detonation.
    – Mark
    Commented Aug 26, 2015 at 3:11

Wikipedia answers this rather well. Basically, a plutonium bomb is more complicated than a uranium bomb. However, weapon-grade plutonium is also easier to obtain than weapon-grade uranium, since the plutonium can be separated chemically from burnt nuclear reactor fuel, whereas uranium needs to be enriched in a costly process. In fact, all of the enriched uranium that was produced during the Manhattan project was used in Little Boy, the Hiroshima bomb.

  • When the decision to pursue both paths was made, it was thought that a gun-type plutonium bomb was viable. The decision to make an implosion-type plutonium bomb was only made once they had samples of reactor-produced Pu-239 on hand and discovered that it was contaminated with too much Pu-240 to make a viable gun-type bomb.
    – Mark
    Commented Oct 25, 2015 at 2:17

Nuclear bomb making was a new endeavor and it was not clear which approach would be successful - cheaper, faster, more powerful, smaller, more reliable &c &c. They really had to try all feasible approaches before settling on one.


The uranium-based gun design was the fundamental approach of the project from the beginning.

The "fat man" design used plutonium-239, a substance much easier to produce than uranium-235, but requiring a much more complicated implosion type warhead. It was not clear until 1944 that the implosion design would even work. John von Neumann essentially invented an entirely new branch of physics, called shock wave theory, that was used to design the implosion lenses for the device. Once it became clear that the implosion technique was feasible and necessary for plutonium, the fat man design was added as an improved approach for a second (and all future) bombs.

Thus, the development of the weapon proceeded on two tracks.

The benefits were to have a relatively high-probability-of-success weapon (uranium bomb) and a more advanced bomb (plutonium) for future development.

  • and of course to have a larger stockpile of bomb material, so more weapons could be produced in the limited time available.
    – jwenting
    Commented Aug 22, 2015 at 19:59

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