Some common radionuclides that can be produced from tellurium-124 are Iodine-123 and Iodine-124.
Te is the chemical symbol for tellurium, a metalloid element with atomic number 52.
Tellurium is radioactive, though there are stable isotopes. The radioactive isotopes found in nature account for more than two thirds of any normal sample. Additional synthetic radioactive isotopes exist.
a natural state of matter would be tellurium
The element with a mass number of 52 could be tellurium (Te) or antimony (Sb). Both of these elements have isotopes with a mass number of 52.
There are 52 protons in an atom of tellurium. The number of neutrons varies, however, as there are a number of isotopes of this metalloid. There are 70, 72, 73 and 74 neutrons in stable isotopes of tellurium, and 68, 71, 76 and 78 neutrons in four radioactive isotopes which can be found naturally. In all, there are isotopes of tellurium with 53 thorough 90 neutrons. A link can be found below for more information.
polonium
You have not told us what element "this" element is.
Te is the chemical symbol for tellurium, a metalloid element with atomic number 52.
The isotopes 252Cf and 251Cf.
Tellurium is radioactive, though there are stable isotopes. The radioactive isotopes found in nature account for more than two thirds of any normal sample. Additional synthetic radioactive isotopes exist.
The element with 52 protons is Tellurium, which has the chemical symbol Te. It is a metalloid with a variety of applications in industry and technology.
They show that the periodic table isn't arranged on the basis of increasing atomic mass because iodine has a mass lesser than tellurium. Iodine has a mass of 126.90 and tellurium has a mass of 127.60.
it is an element
a natural state of matter would be tellurium
Different Isotopes of the same element will each exhibit the same Chemical Characteristics.
The element with a mass number of 52 could be tellurium (Te) or antimony (Sb). Both of these elements have isotopes with a mass number of 52.
Isotopes of a element are simply versions of that same element with different count of neutron, with that in mind they take all of the isotopes of a specific element and average them together taking in account the percent abundance of each so the most common isotope is the one on the periodic table.