Plutonium is very useful in nuclear weapons or nuclear fuels but is toxic, radioactive and expensive.
See the link below for more details.
Inhaled fine powders are absorbed in lungs and are the cause of lung cancers.
Plutonium is a radioactive metal with a boiling point of approximately 3,228 degrees Celsius (5,842 degrees Fahrenheit). At this temperature, plutonium would transition from a solid to a gaseous state. However, handling plutonium at or near its boiling point would be extremely hazardous due to its highly toxic and radioactive nature.
Examples are: plutonium metal, isotope Pu-238, plutonium dioxide, plutonium sulfide, plutonium nitrate, plutonium carbide etc.
Plutonium chemical properties:- plutonium is a reactive metal: the Pauling electronegativity is 1,28- plutonium is flammable- plutonium has six allotropes- plutonium in compounds has valences from 2 to 7- plutonium is very toxic
Some plutonium compounds: Hydrides: Plutonium dihydride: PuH2, Plutonium trihydride: PuH3 Fluorides: Plutonium trifluoride: PuF3, Plutonium hexafluoride: PuF6, Plutonium tetrafluoride: PuF4 Chlorides: Plutonium trichloride: PuCl3 Bromides: Plutonium tribromide: PuBr3 Iodides: Plutonium triiodide: PuI3 Oxides: Plutonium oxide: PuO, Plutonium dioxide: PuO2, Diplutonium trioxide: Pu2O3 Sulfides: Plutonium sulphide: PuS, Plutonium disulphide: PuS2, Diplutonium trisulphide: Pu2S3 Selenide: Plutonium selenide: PuSe Nitrides: Plutonium nitride: PuN Carbides: PuC, Pu2C3 Borides: PuB2,Pu2B4, PuB6, PuB100 Nitrate : Plutonium (III) nitrate: Pu(NO3)3, Plutonium (IV) nitrate: Pu(NO3)4 And many others.
Plutonium 241 has a half life of 14 years. Storing the nuclear waste of plutonium can be very hazardous and needs to be stored for hundreds of thousands of years before it is totally safe.
Inhaled fine powders are absorbed in lungs and are the cause of lung cancers.
Plutonium is a radioactive metal with a boiling point of approximately 3,228 degrees Celsius (5,842 degrees Fahrenheit). At this temperature, plutonium would transition from a solid to a gaseous state. However, handling plutonium at or near its boiling point would be extremely hazardous due to its highly toxic and radioactive nature.
Some plutonium chemical compounds; plutonium dioxide, plutonium nitride, plutonium carbide, plutonium nitrate, plutonium trifluoride, plutonium chloride, etc.
Examples are: plutonium metal, isotope Pu-238, plutonium dioxide, plutonium sulfide, plutonium nitrate, plutonium carbide etc.
Examples: PuO2, plutonium nitrate, plutonium carbide, plutonium chloride, plutonium fluoride etc.
Plutonium chemical properties:- plutonium is a reactive metal: the Pauling electronegativity is 1,28- plutonium is flammable- plutonium has six allotropes- plutonium in compounds has valences from 2 to 7- plutonium is very toxic
There's no plutonium here. I haven't even seen any plutonium, recently.
You can't reuse energy after it has been used-this applies whether nuclear or not. What you can do with nuclear power is to breed useful fissile material such as plutonium from non-fissile uranium-238. However to separate out the plutonium is a somewhat hazardous chemical process, in the US this has only been done for military purposes.
Pure plutonium contain only plutonium atoms.
Plutonium is only paramagnetic.
Some plutonium compounds: Hydrides: Plutonium dihydride: PuH2, Plutonium trihydride: PuH3 Fluorides: Plutonium trifluoride: PuF3, Plutonium hexafluoride: PuF6, Plutonium tetrafluoride: PuF4 Chlorides: Plutonium trichloride: PuCl3 Bromides: Plutonium tribromide: PuBr3 Iodides: Plutonium triiodide: PuI3 Oxides: Plutonium oxide: PuO, Plutonium dioxide: PuO2, Diplutonium trioxide: Pu2O3 Sulfides: Plutonium sulphide: PuS, Plutonium disulphide: PuS2, Diplutonium trisulphide: Pu2S3 Selenide: Plutonium selenide: PuSe Nitrides: Plutonium nitride: PuN Carbides: PuC, Pu2C3 Borides: PuB2,Pu2B4, PuB6, PuB100 Nitrate : Plutonium (III) nitrate: Pu(NO3)3, Plutonium (IV) nitrate: Pu(NO3)4 And many others.