For example a comparation with plutonium.
- the energy released from enriched uranium is higher compared to natural uranium- the amount of uranium needed for a reactor is lower- research reactors work only with enriched uranium- atomic bombs have highly enriched uranium or plutonium
The electronegativity of Uranium is around 1.38 based on the Pauling scale. Uranium is a metal with relatively low electronegativity compared to nonmetals like oxygen and fluorine.
High compared to hydrogen and helium, low compared to lead, gold and uranium.
Plutonium generally has a lower atomic mass compared to uranium because it has fewer protons and neutrons in its nucleus. Plutonium isotopes tend to have a smaller number of nucleons overall compared to most uranium isotopes, resulting in a lower atomic mass.
Yes.......most likely. I can't think of anything to do with Uranium, that isn't radioactive! -------- Uranium natural isotopes are not so radioactive compared with other isotopes; but all the isotopes of uranium are radioactive.
A nuclear reactor is a facility which produce electricity and heat from the fission of uranium or plutonium.The energy released by fission of uranium-235 (or other isotopes) is immense compared to the energy content of fossil fuels.
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Uranium has some advantages compared with fossil fuels:1. Uranium is an alternative to fossil fuels, especially for countries without reserves of coal, petrol, methane.2. Uranium don't contribute to global warming.3. Uranium don't release carbon dioxide.4. In the future uranium can be extracted from the sea water.
The electrical resitivity of uranium is 28.10-8 ohm.meter. This value is not very good.
Uranium is a metal with relatively low electrical conductivity compared to other metals. It is considered a poor conductor of electricity due to its crystalline structure and electronic configuration. However, uranium can still conduct electricity to some extent.
Similarities: Both uranium-235 and uranium-238 are isotopes of uranium, meaning they have the same number of protons but different numbers of neutrons. They are both radioactive and can undergo nuclear fission. Differences: Uranium-235 is the primary isotope used for nuclear fuel and weapons due to its higher susceptibility to fission compared to uranium-238. Uranium-238 is more abundant in nature, constituting over 99% of natural uranium, while uranium-235 is less common.
There is a stronger gravitational force acting among the particles of a uranium nucleus compared to the nucleus of helium. This is because uranium has more mass than helium.