An alloy or a mixed oxide
oxygen, plutonium, and uranium. hope this helps
Neutrons in the nucleus of the element's atoms. It is the number of protons in the nucleus that determines what the element is. It is the total of neutrons and protons in the nucleus that gives the isotope number. Uranium generally comes in two isotopes, U235 and U238. All uranium is radioactive -- that is, it will decay into other elements over time. U238 is much more common and is very long lived radioactively and is not explosive and cannot be made into atomic bombs. U235 is much rarer, but is highly radioactive and can be made into atomic bombs. The two isotopes are mixed together at the atomic level. This is what Iran is trying to do now in it's efforts to concentrate enough U235 to make a bomb -- the process is called "enrichment."
The primary fuels we generally see used in nuclear power plants are the fissile materials uranium and plutonium. In the case of uranium, the metal is recovered from the ground, and is then processed and refined for use as fuel. In reactors using enriched uranium, the uranium will have to undergo considerable processing to increase the concentration of the U-235 isotope that is fissionable. (Natural uranium is mostly U-238.) In the case of plutonium, we can make it by exposing U-238 to neutron flux in an operating nuclear reactor.
in doodle god episode 2 you can make plutonium by mixing metal and radiation and to make a nuclear bomb you mix plutonium with weapon
The isotope uranium-238 is the source of plutonium.
Any link between plutonium and alchemistry.
Plutonium is not used in batteries.
plutonium + weapon
no
Yes. We normally don't "put a little plutonium" in something else to make an alloy, but sometimes we alloy a bit of something else in with it. For instance, a bit of gallium us used to make a plutonium alloy. The gallium helps stabilize plutonium and reduce phase transitions.
A very small amount of plutonium is found in nature. The majority of it is produced artificially.The majority of plutonium is made in nuclear reactors:uranium-238 captures a neutron, becoming uranium-239uranium-239 undergoes beta decay, becoming neptunium-239 (halflife 23.5 minutes)neptunium-239 undergoes beta decay, becoming plutonium-239 (halflife 2.33 days)plutonium is then chemically separated from the remaining uranium, neptunium, etc.
An atom of plutonium contain protons, neutrons and electrons - not other elements.