Examples:Oxides: uranium dioxide, uranium trioxide, uranium octaoxideSalts: ammonium diuranate, uranyl nitrate, uranyl acetate, uranium hehxafluoride, uranium chlorideand many others because uranium is a reactive metal.
Isotopes Uranium 235 and uranium 238 are only natural isotopes of the element uranium.
Uranium is actually enriched as a gas, uranium hexafluoride. This is then chemically treated to turn it into a solid material, in most reactors it is uranium dioxide that is used as fuel. In PWR and BWR designs (and AGR in the UK) it is made into small cylinders 10mm diameter which are then stacked end to end inside a sheath, to make a fuel rod. So to describe this as "pelletts" is not quite accurate.
The percentage of uranium in uranium dioxide is 88,149.
Uranium is a paramagnetic element.
In the UK (Sellafield) and in France
It used to be Furs but today it is Gold, Diamonds, Jewelry, Uranium and metals. Aircraft and machinery are also important but the largest are resources like Gold, and Uranium.
Examples:Oxides: uranium dioxide, uranium trioxide, uranium octaoxideSalts: ammonium diuranate, uranyl nitrate, uranyl acetate, uranium hehxafluoride, uranium chlorideand many others because uranium is a reactive metal.
uranyl nitrate, uranium chloride, uranium tetrafluoride, uranium hexafluoride, uranium dioxide, uranium octaoxide, uranyl acetate, uranyl sulfate, uranyl oxalate, uranium carbide, uranium nitride, uranium sulfide, uranium sulfate, uranium selenide, etc.
uranyl nitrate, uranium dioxide, uranium octaoxide, uranium hexafluoride, uranyl acetate, uranium tetrachloride, uranium carbide, uranium nitride, uranium tetraiodide, uranium sulfide, ammonium diuranate, etc.
Some examples of uranium compounds are: uranyl nitrate, uranium dioxide, uranium hexafluoride, uranium tetrachloride, triuraniumoctaoxide, uranyl acetate, uranium iodide, uranium nitride, uranium, sulfide, uranium carbide, uranyl sulfate, etc.
Isotopes Uranium 235 and uranium 238 are only natural isotopes of the element uranium.
uranyl nitrate, uranium chloride, uranium tetrafluoride, uranium hexafluoride, uranium dioxide, uranium octaoxide, uranyl acetate, uranyl sulfate, uranyl oxalate, uranium carbide, uranium nitride, uranium sulfide, uranium sulfate, uranium selenide, etc.
Uranium is actually enriched as a gas, uranium hexafluoride. This is then chemically treated to turn it into a solid material, in most reactors it is uranium dioxide that is used as fuel. In PWR and BWR designs (and AGR in the UK) it is made into small cylinders 10mm diameter which are then stacked end to end inside a sheath, to make a fuel rod. So to describe this as "pelletts" is not quite accurate.
The percentage of uranium in uranium dioxide is 88,149.
Uranium is a chemical element with three natural isotopes (234, 235, 238). The natural uranium has cca. 0,72 % uranium-235; uranium with a concentration of uranium-235 under 0,72 % is called depleted uranium; uranium with a concentration of uranium -235 above 0,72 % is called enriched uranium. Uranium in nuclear power and research reactors is used as metal, aloys, uranium dioxide, uranium carbides, uranium silicides, etc.
Uranium is a paramagnetic element.