Some very simple informations: Uranium is a metal, actinides group, toxic, radioactive, atomic number 92, Atomic Mass 238,02891. Uranium has three natural isotopes and approx. 25 artificial isotopes. Some isotopes are fissiles. Used especially in nuclear reactors and nuclear weapons.
The most specific classification for the element uranium is actinide. Uranium is a member of the actinide series, which is a group of elements in the Periodic Table that are all radioactive.
The element most commonly used as a fuel in nuclear fission reactions is uranium-235. It is a naturally occurring isotope of uranium that can sustain a chain reaction under controlled conditions in nuclear reactors.
Electrons in uranium are arranged in energy levels and orbitals around the nucleus. Uranium has 92 electrons, with each electron occupying a specific orbital based on the Aufbau principle. The outermost electrons are involved in bonding and chemical reactions, determining the element's properties.
Uranium is a radioactive element commonly used in nuclear power stations. It undergoes nuclear reactions to produce heat, which is then used to generate electricity.
species
The amount of neutrons can always be found by taking the atomic number from the mass number. Uranium has 146 neutrons. It depends on the isotope. See the link below for a list of uranium isotopes and how many neutrons are in each. You cannot tell how many neutrons it has with the given information. The most abundant isotope happens to be 238U, which has 146 neutrons.
species
Oxygen is the most common element that bonds with uranium to form compounds such as uranium dioxide (UO2) and uranium trioxide (UO3).
kingdom is the most specific classification. dnt believe me chck in Google
Yes
7 levels of classification from broadest to most specific level
It was not a specific sort of atom. They split the atom.Not only is it a specific atom (element), it is a specific isotope of that element: Uranium-235. This is the one and only naturally occurring isotope that fissions and supports a chain reaction.
The element most commonly used as a fuel in nuclear fission reactions is uranium-235. It is a naturally occurring isotope of uranium that can sustain a chain reaction under controlled conditions in nuclear reactors.
The most important element in the regulation of the HTS, or Harmonized Tariff Schedule, is the accurate classification of goods. This involves determining the correct tariff classification code based on the specific characteristics and intended use of the product. Proper classification ensures that the duties and tariffs imposed on imported goods are appropriate and helps facilitate international trade.
Uranium is the most common element used in nuclear power plants to generate energy through a process called nuclear fission.
Species and sub-species are the most specific categories of classification in the biological classification system. These categories group organisms based on their genetic and physical similarities at the most detailed level.
Electrons in uranium are arranged in energy levels and orbitals around the nucleus. Uranium has 92 electrons, with each electron occupying a specific orbital based on the Aufbau principle. The outermost electrons are involved in bonding and chemical reactions, determining the element's properties.
Uranium is a radioactive element commonly used in nuclear power stations. It undergoes nuclear reactions to produce heat, which is then used to generate electricity.